籼型优质中籼早熟三系杂交水稻新组合旌优539的选育

旌优539是四川农业大学水稻研究所用自主选育的优质、高产恢复系蜀恢539与四川省农业科学院水稻高粱研究所选育的不育系旌早1A配组育成的优质中籼早熟三系杂交水稻新组合,其米质达农业行业标准2级,且兼具稳产等特点。该品种在2022年7月通过四川省农作物品种审定委员会审定,审定编号:川审稻20220038。从选育经过、特征特性、栽培管理及制种方法对该品种进行介绍。

水稻叶片内卷突变体rl(t)的鉴定与基因定位

【目的】叶片是水稻理想株型的重要内容,叶片适度卷曲可以提高光合效率。对卷叶相关基因进行遗传分析和初步定位,为下一步的基因克隆与功能分析提供研究基础。【方法】利用EMS诱变雄性不育保持系宜香1B获得一份稳定遗传的叶片向内卷曲突变体,暂命名为rl(t)。在成熟期,测定野生型和rl(t)的主要农艺性状;在分蘖期,取野生型和rl(t)叶片用FAA固定液固定进行石蜡切片,同时,用野生型和rl(t)剑叶测定叶绿素含量;在抽穗期,利用Li-6400便携式光合仪测定10株抽穗期的野生型和rl(t)的光合参数;将rl(t)与野生型及日本晴杂交,观察F_1植株表型,对F_2表型分离进行χ~2测验,对突变体进行遗传分析。以rl(t)/日本晴的F_2群体为材料,利用BSA法进行定位。【结果】与野生型相比,突变体叶片向内卷曲明显,叶片更加直立,叶色变深,其他主要农艺性状均有不同程度降低。光合特性分析表明,突变体比野生型具有更高的光合色素含量,但光合效率没有明显差异。叶片组织切片观察表明,突变体中泡状细胞变小可能是导致叶片卷曲的主要原因。遗传分析表明,该突变体受一对隐性核基因控制,利用突变体与日本晴的F_2群体进行基因定位,最终将该基因定位在第7染色体长臂InDel标记Ind3和Ind4间610 kb的物理区间。【结论】rl(t)叶片内卷是由于近轴面泡状细胞面积减小。RL(t)定位区间内未见卷叶相关基因报道,推测RL(t)可能是一对新基因。

稻米中降低血糖血脂以及抗氧化功能的活性成分分析

【目的】通过研究不同颜色稻米的生理功能效应,分析其具有生理功能效应的活性成分,从而为保健功能稻米品种选育提供理论依据。【方法】采用凯氏定氮法测总蛋白含量,蒽酮比色法测总淀粉含量,Megazyme试剂盒测抗性淀粉含量,福林酚法测总的多酚含量,NaNO_(2)-Al(NO)_(3)比色法测类黄酮含量,ORAC法进行体外抗氧化活性检测,通过昆明小鼠进行体内血糖血脂效应研究。【结果】试验采用的3种不同颜色稻米材料分别是白米(蜀恢527)、红米(红香糯)和黑米(黑香糯)。蛋白、淀粉和抗性淀粉检测结果表明3个不同颜色的水稻品种的总蛋白含量、总的淀粉和抗性淀粉含量无显著差异;总的多酚含量结果表明,红米品种中的多酚含量最高(12.6 mg/g),其次是黑米(8.0 mg/g),白米含量最低(5.6 mg/g);在3个不同颜色水稻品种中的类黄酮含量的变化趋势与多酚一致。体外抗氧化活性结果表明,红米红香糯的氧化自由基吸收能力最高为363μmol Trolox/g,其次是黑米黑香糯为219μmol Trolox/g,最低的是白米蜀恢527,仅107μmol Trolox/g;体内降糖和降脂活性研究表明,红米红香糯提取物表现出降糖趋势,但是降脂效应确在黑米黑香糯组呈现;更进一步的体内SOD活性研究表明,红米红香糯组小鼠表现最强活性,达到556.65 U/mg。【结论】红米红香糯和黑米黑香糯富含丰富的多酚和类黄酮,白米蜀恢527含量最低,因此红米和黑米具有强的生理功能,尤其是红米红香糯。

优质三系杂交籼稻新组合泰香优美玉的选育

泰香优美玉是四川奥力星农业科技有限公司利用自主选育的抗病、高配合力恢复系R香占与四川农业大学水稻研究所选育的米质优、配合力强、异交结实好的不育系泰香A配组育成的优质三系杂交籼稻新组合,2021年通过国家农作物品种审定委员会审定。

不同磷酸二氢钾喷施量对水稻淀粉合成及相关基因的影响

【目的】研究在相同栽培条件下不同磷酸二氢钾喷施量对水稻淀粉合成及相关基因的影响。【方法】以3种不同直链淀粉含量的水稻品种作为试验材料,采用两因素裂区设计,4种磷酸二氢钾喷施水平处理,取开花后10 d颖果,提取RNA并分析GBSSⅠ、BEⅡb、BEⅠ、SSⅡa及SSⅢa基因的表达量,待籽粒完全成熟后,检测供试水稻精米及糙米的总淀粉含量、总蛋白含量和总脂质含量,以及供试水稻精米的直链淀粉含量和抗性淀粉含量。【结果】对直链和抗性淀粉分析,磷酸二氢钾处理对琥珀一号可显著提高精米直链淀粉含量和抗性淀粉含量,分别提高了22.43%和95.01%;在琥珀二号和糯优一号中降低直链淀粉含量,但提高抗性淀粉含量,直链淀粉分别降低6.75%和64.24%,抗性淀粉分别提高55.63%和43.07%。进一步对淀粉合成通路关键基因表达分析,磷酸二氢钾影响GBSSⅠ、BEⅡb、BEⅠ、SSⅡa及SSⅢa基因表达,且在3个供试水稻品种籽粒中均呈现先增加后降低趋势。对脂质和蛋白含量分析,随磷酸二氢钾浓度的升高,3个供试水稻品种精米及糙米的脂质含量均逐渐增加,精米中各品种相对于CK分别提高了72.64%、24.24%和4.71%,糙米中各品种脂质含量相对于CK分别提高了25.88%、17.20%和7.81%。相反,在精米中琥珀一号及琥珀二号总蛋白含量比CK分别降低了19.71%和22.15%,而糯优一号材料的蛋白质含量影响不同于其他2个品种,变化呈现波动性,在糙米中,琥珀一号及糯优一号蛋白质含量变化趋势与精米一致,琥珀二号材料的蛋白质含量变化与精米不同,呈现升高状态,最高比CK增加了30.30%。【结论】喷施磷酸二氢钾能够在一定程度上提高稻米精米的抗性淀粉含量以及淀粉合成通路关键基因的表达量,对水稻直链淀粉合成具有一定的品种特异性,能够提高稻米中精米及糙米的脂质含量,但降低精米蛋白质含量。根据不同喷施量对比,喷施磷酸二氢钾20 g/hm^(2)有利于水稻生长发育,改善稻米品质。

BEIIb基因对稻米直链淀粉及其合成途径中相关基因的影响

BEIIb基因是水稻淀粉合成的一个分支酶基因,在IR36的ae突变体中,BEIIb的缺失导致了直链淀粉的大幅度提高,同时影响了淀粉合成途径一些基因的表达。为深入探索不同直链淀粉含量品种的理化性质以及决定高直链淀粉含量的遗传因子。本研究选用了IR36及其突变体以及4份不同直链淀粉含量的水稻品种进行淀粉含量、理化性质以及淀粉合成途径相关的遗传因子的表达分析。研究发现直链淀粉含量IR36的ae突变体(30.05%)是野生型IR36(21.07%)的1.4倍,且明显高于其它品种,最低的是糯稻品种‘朝紫’(3.52%);IR36ae突变体与野生型的糊化温度也存在显著差异,且综合其他几个品种的结果发现,稻米的糊化温度与直链淀粉含量呈负相关;IR36ae突变体的胶稠度比野生型的硬,且直链淀粉含量越高的品种胶稠度越硬;IR36ae突变体的淀粉颗粒比野生型要稍大一点,且直链淀粉含量较高的品种淀粉颗粒较大;定量PCR结果表明ae突变体中BEIIb的缺失导致了Wx基因的上调,以及SSI和BEI、BEIIa的下调。且淀粉合成关键酶基因中的Wx基因(GBSSⅠ)在不同品种以及不同发育时期表达量均为最高,支链淀粉合成相关基因在低直链淀粉品种中的表达明显高于在高直链淀粉品种中的表达。BEIIb的缺失引起直链淀粉的明显提高,糊化温度的降低,淀粉颗粒的增大,以及一些淀粉合成相关基因的改变。

Patterns of DNA cytosine methylation between haploids and corresponding diploids in rice

Eighteen pairs of diploid-haploid twin-seedlings were identified and screened out fromspecial rice SARII-628 population. Five pairs of themwere selected and randomly designated as A, B, C, Dand E. Simple sequence repeats (SSR) analysisshowed that there was no difference among 310 siteswhich indicated that there was no base mutation onDNA primary structure. DNA methylation plays animportant role in gene expression regulation duringgrowth and development stages in eukaryotes. Amodified AFLP technique (methylation-sensitiveAFLP, MSAP) was employed to detect the DNA me-thylation patterns in the 5′-CCGG sites of the fivepairs of twin-seedlings. Although no methylationmutation was detected among the five diploids,forty-three methylation mutation sites were foundfrom the corresponding haploids. The MSAP ratios,which were the ratios of MSAP sites to the total am-plified sites, in five haploids were 18.79%, 19.35%,18.49%, 18.45% and 18.75%, respectively. And cor-responding full methylation levels (5′-CmCGG indouble strands) of those haploids were 10.58%,11.3%, 10.11%, 10.09% and 10.34%, respectively.Both MSAP and full methylation levels in the fivehaploids were higher than that of their correspondingdiploids, which suggested that hypermethylation oc-curred in some 5′-CCGG sites. Five types of MASPpatterns among the five pairs of twin-seedlings weredetected as follows: (1) no changes, methylation lev-els were the same in both haploids and diploids; (2) demethylation, diploid was methylated but no me-thylation in the same site in haploid; (3) hypermethy-lation, the methylation level in haploid was higher than those in diploid; (4) hypomethylation, methyla-tion in haploid was lower than those in diploid; (5) undecided pattern, change trend of methylation lev-els in haploids was not decided. The bands of 18 sites were reclaimed, then sequenced and searched on website to determine the sites of those sequences on rice chromosomes. The result showed that the methylation mutation involved the whole rice genome and 12 pairs of chromosomes. The mutation was site-related and there were different mutation sites for different haploids. Compared to diploids, the higher methylation level in haploids might be a readjusting reaction to the decrease in ploidy for the sake of sur-vival.

The microarray analysis for gene expression in haploids and diploids derived from twin-seedling rice

In this study, microarray technique was employed to analyze the gene expression at the RNA level between haploids and corresponding diploids derived from a rice twin-seedling line SARII-628. Differ- ent degrees of expression variations were observed in the plant after haploidization. The main results are as follows: (1) after haploidization, the ratio of the sensitive loci was 2.47% of the total loci designed on chip. Those loci were randomly distributed on the 12 pairs of rice chromosomes and the activated loci were more than the silenced ones. (2) Gene clusters on chromosome were observed for 33 se- quences. (3) GoPipe function classification for 575 sensitive loci revealed an involvement in the bio- logical process, cell component and molecular function. (4) RT-PCR generally validated the result from microarray with a coincidence rate of 83.78%. And for the randomly-selected activated or silenced loci in chip analysis, the coincidence rate was up to 91.86%.