Genetic Improvement and Biological Characteristic Analysis of Dwarf Abortive TypeJaponicaCMS Lines with Wide Compatibility

From the view of methodology for genetic improvement ofJaponicacytoplasmic male sterile(CMS) lines,we introduced the breeding process of the dwarf-abortive type(DA type)JaponicaCMS line Chunjiang 95A with wide compatibility,and further investigated the biological characteristics of the DA type Chunjiang 95A and its isonuclear alloplasmic CMS line Dian-I type Chunjiang 95A.The results show that DA type Chunjiang 95A is a japonicalinous CMS line and mainly typical abortive,which is better in fertility stability than stained abortive typeJaponica CMS lines.The DA type Chunjiang 95A is featured with high stigma exsertion,good flowering habit,high outcrossing rate and wide compatibility.Its recoverability differs from stained abortive typeJaponicaCMS lines.Moreover,we discussed genetic improvement of the typical abortive type JaponicaCMS lines and the application prospects of heterosis.

Breeding of near-isogenic japonica rice lines with three major genes for resistance to bacterial blight

From 1986 to 1993, a set of near-isogenic japonicarice Iines with three major genes Xα-3, Xα - 4,and Xα-12 for resistance to bacterial blight(Xan-thomonas oryzae pv.oryzae)were developed anddesignated as CBB3, CBB4, and CBB12 respective-

粳型水稻三系雄性不育系竹稻08A的选育及应用

竹稻08A系福建省农业科学院水稻研究所育成的粳型三系不育系,于2023年通过福建省农作物品种审定委员会鉴定。该不育系不育性彻底,株叶形态好,抗倒性强,配合力好。本文介绍了不育系竹稻08A选育过程、主要生物学特性及所配制杂交水稻新品种的表现,以期为该不育系配组及推广应用提供参考。

Construction of SSR Linkage Map and Analysis of QTLs for Rolled Leaf in Japonica Rice

Genetic analysis of rolled leaf is important to rice ideotype breeding. To detect loci controlling rolled leaf of japonica restorer lines, SSR marker genotypes and phenotypes of flag leaf rolling index （LRI） were investigated in Xiushui 79 （P1, a japonica rice variety）, C Bao （P2, a japonica restorer line） and 254 recombinant inbred lines derived from the cross between P1 and P2 , and in two environments. A genetic map of this cross was constructed, QTLs for LRI were detected and their interactions with environments were analyzed. Among 818 pairs of SSR primers, 90 primers showed polymorphism between P1 and P2, and 12 markers showed highly significant correlation with LRI in both environments based on single marker regression analysis. The genetic map containing 74 information loci has a total distance of 744.6 cM, with an average of 10.1 cM between two adjacent loci. Three QTLs （qRL-1, qRL-7 and qRL-8-1） were detected with two softwares： WinQTLCart 2.5 and QTLNetwork2.0. qRL-8-1 was a new locus, accounting for 15.5% and 12.8% of phenotypic variations in the two environments, respectively. The phenotypic variation explained by additive effect was 6.6%. No interaction was found between qRL-8-1 genotype and environments.

Low-Temperature Response to Major Agronomic Traits by Using Recombinant Inbred Line(RIL) Populations Derived from Towada × Kunmingxiaobaigu

Development of the recombinant inbred line populations （RILs） is important basis to detect QTLs for cold tolerance at booting stage in rice. A set of 230 RILs derived from the cross of Towada and Kunmingxiaobaigu were used for evaluation of low-temperature response on major agronomic traits of plant height （PH）, panicle length （PL）, panicle exsertion （PE）, spikelet fertility （SF）, specific spikelet fertility （SSF）, and spikelets per panicle （SPP） under natural low-temperature growing environments in Yunnan Province, China. The results showed PH, PE, and SPP were mainly attributed by genotypes. PL was mainly influenced interactively by the genotypes × environments. SF and SSF were mainly controlled by the environments. Under the five different growth environments, F values of the six agronomic traits mentioned above ranged from 4.019 to 97.284. Significant difference was revealed between the lines. Under every environment, it indicated significantly positive correlation between SF and SSF, with correlation coefficients ranged from 0.826 to 0.885. It indicated significantly positive correlation between PH, PL, and PE. Under five different growing environments, variation coefficients of the six characters ordered in SSF （66.3%） 〉 PE （57.4%） 〉 SP （37.2%） 〉 SPP （16.2%） 〉 PH （9.6%） 〉 PL （6.4%）. SSF, PE and SF were most sensitive to low temperature stress at booting stage, while SPP, PH and PL being least. The RILs of Towada/ Kunmingxiaobaigu can be used as a genetic population to investigate cold tolerance at booting stage. SSF, PE and SF are most sensitive to cold tolerance at booting stage in rice. So far the the variation of PH, PL, and SPP related to cold tolerance are not clear under natural low-temperature environment. More tested environments and years are required to identify and evaluate cold tolerance at booting stage in rice.

Effect of Environment and Genetic Recombination on Subspecies and Economic Trait Differentiation in the F_2 and F_3 Generations from indicajaponica Hybridization

indica and japonica are the two most important subspecies of Asian cultivated rice. Identifying mechanisms responsible for population differentiation in these subspecies is important for indica-japonica hybridization breeding. In this study, subspecies and economic trait differentiation patterns were analyzed using morphological and molecular （InDel and Intron Length Polymorphism） data in F2 and F3 populations derived from indica-japonica hybridization. Populations were grown in Liaoning and Guangdong provinces, China, with F3 populations generated from F2 populations using bulk harvesting （BM） and single-seed descent methods （SSD）. Segregation distortion was detected in F3-BM populations, but not in F3- SSD or in F2 populations. Superior performance was observed with respect to economic traits in Liaoning compared with that in Guangdong and 1 000-grain weight （KW）, seed setting rate （SSR） and grain yield per plant （GYP） were significantly correlated with indica and japonica subspecies types. Analysis of molecular and morphological data demonstrated that the environment is the main factor giving rise to population differentiation in indica-japonica hybridization. In addition, we also found that KW, SSR and GYP are related to subspecies characteristics and kinship, which is possibly a significant factor resulting in economic trait differentiation and determining environmental adaptability. Our study has provided new insights into the process of population differentiation in these subspecies to inform indica-japonica hybridization breeding.

粳型两系杂交水稻株高、穗部性状与产量性状比较分析

研究以新配制的48份粳型两系杂交稻组合及越光和盐丰47为试验材料,对粳型两系杂交稻杂交组合的株高、产量及穗部性状进行比较分析。试验结果表明:杂交稻新组合株高的差异较大,变化范围为98~129.0 cm,极差为31 cm。粳型两系杂交稻新组合穗部性状各指标均存在较明显差异,其中变异系数最大是单穗秕粒数,变异系数达74.04%。

粳稻重组自交系的品质性状分析

以粳稻重组自交系为研究材料,对其糙米率、精米率、整精米率、垩白粒率、垩白度、白度、直链淀粉含量、蛋白质含量等品质性状进行了分析。结果表明,各品质性状都在重组自交系群体中都呈连续变异,且存在双向超亲分离现象。对品质性状进行相关性分析,结果显示在碾磨品质性状中,糙米率与精米率、整精米率呈显著正相关;外观品质性状中,白度与垩白粒率、垩白度、长宽比,垩白度与垩白粒率呈极显著正相关;长宽比与垩白粒率、垩白度呈极显著负相关;食味品质性状中,蛋白质含量与脂肪酸值,直链淀粉含量与蛋白质含量、脂肪酸值呈极显著正相关。此外,粳稻其他不同品质性状之间也存在不同程度的相关性。

籼粳超级杂交稻育种技术创新与品种培育

【目的】针对籼粳亚种间杂种优势利用存在的生育期偏长、结实率偏低、制种产量较低等问题,开展籼粳亚种间超级杂交稻育种技术创新与实践。【方法】通过籼粳渐渗杂交,选育花时早、柱头外露高的粳型保持系,进一步转育高异交率粳型不育系。通过籼粳渐渗杂交、广亲和基因分子标记辅助选择、籼粳成分定向选择等技术手段,选育穗型大、茎秆粗壮、广亲和性好、恢复谱广的籼粳中间型广亲和恢复系,并比较与普通粳稻恢复系在主要农艺性状、程氏指数、广亲和特性、广亲和基因、恢复谱等方面的差异。采用"粳不籼恢"和"籼不粳恢"2种配组方式,比较两者的光温反应类型表现与异交结实率差异。利用粳型不育系春江16A、籼型不育系五丰A与CH58、C84、C927等籼粳中间型广亲和恢复系配组,选育"粳不籼恢"或"籼不粳恢"籼粳亚种间杂交稻。【结果】在高异交率粳型不育系创制方面,转育出早花时粳型不育系春江16A以及春江99A、春江23A等早花时、高柱头外露率粳型不育系,制种产量明显提高;在籼粳中间型广亲和恢复系创新方面,选育出CH58、C84、C927等穗型大、茎秆粗壮、广亲和性好、恢复谱广的籼粳中间型广亲和恢复系。晚粳不育系/籼粳中间型广亲和恢复系的杂种一代表现为较强的感光特性,中粳不育系/籼粳中间型广亲和恢复系的杂种一代表现为感温特性,早籼不育系/籼粳中间型广亲和恢复系的杂种一代光温反应类型则表现不一。无论是"粳不籼恢"还是"籼不粳恢"配组,父母本的花时差小、不育系柱头外露率高,则有利于提高制种的异交结实率。采用"粳不籼恢"和"籼不粳恢"的配组方式,利用粳型不育系春江16A、籼型不育系五丰A与C84等籼粳中间型广亲和恢复系配组,选育出春优84、五优84等籼粳亚种间杂交稻并通过品种审定,表现出穗型大、杂种优势强、增产潜力大、抗倒性强、结实率高、后期耐寒性好等优点。【结论】通过籼粳渐渗杂交,成功转育出花时早、柱头外露率高的高异交率粳型不育系。籼粳中间型广亲和恢复系携带有S5-n,恢复谱广,明显不同于普通粳稻恢复系。中粳不育系/籼粳中间型广亲和恢复系的杂种一代表现为感温特性,有利于缩短全生育期。不育系柱头外露率高、父母本的花时差小,有利于提高籼粳亚种间杂交稻制种的异交结实率;选育出春优84等籼粳超级杂交稻组合。

籼粳交DH群体和RIL群体的构建及籼粳分化

对籼粳杂交组合“0 2 42 8(粳 ) /特青 (籼 )”F1 进行一步成苗法花药培养 ,对该组合的分离世代采用连续自交随机选择 ,分别获得由 132个株系组成的加倍单倍体 (DH)群体和由 15 7个株系组成的重组自交系 (RIL )群体。通过形态指数法和分子标记法对两个群体的籼粳分化进行了研究 ,结果表明 ,无论是 DH群体还是 RIL群体 ,各株系的籼粳形态指数和分子标记指数分布均呈正态分布 ,但 RIL群体的偏态性强于 DH群体 。

两系杂交稻优势生态型的初步研究

研究了培矮６４Ｓ和Ｎ４２２Ｓ与粳亚种中的东北粳、华北粳、日韩粳、云贵粳、非洲粳、美国稻及籼亚种中的云贵籼、太湖籼、华中籼和Ａｕｓ稻的杂种Ｆ１的产量及产量构成因素的杂种优势，初步确定美国稻、非洲粳、云贵粳以及华北粳中的改良品种是粳稻的优势生态型，太湖籼与云贵籼是籼稻的优势生态型。对籼粳优势生态型的产量优势进行比较发现，Ｎ４２２Ｓ／太湖籼低于Ｎ４２２Ｓ／美国稻，但与Ｎ４２２Ｓ／非洲粳和Ｎ４２２Ｓ／云贵粳相当；培矮６４Ｓ与粳稻优势生态型的优势强于与籼稻优势生态型的优势。两个不育系的优势比较表明，培矮６４Ｓ与各生态型的杂种优势强于Ｎ４２２Ｓ与各生态型的杂种优势。

经基因工程改良的抗白叶枯病水稻粳型恢复系“C418-Xa21”及其杂交稻

通过农杆菌介导的转化系统 ,将业已克隆的水稻抗白叶枯病基因Xa2 1导入重要的粳型杂交稻恢复系“C418”。PCR和抗性分析表明单拷贝整合的Xa2 1在T1 代的分离比为 3∶1。在T2 代通过PCR和抗性分析选择了Xa2 1纯合的转基因株系“C418 Xa2 1”。将选择的转基因纯合系“C418 Xa2 1”与常用的雄性不育系“屉锦A”杂交 ,产生了带有转基因Xa2 1的杂交稻“屉优 418 Xa2 1”(简称转基因杂交稻 )。分子分析表明转基因Xa2 1在杂交稻“屉优418 Xa2 1”中能稳定遗传 ;抗性分析表明转基因恢复系“C418 Xa2 1”和转基因杂交稻“屉优 418 Xa2 1”对白叶枯病具有高度的广谱抗性 ,并保持了受体对照的优良农艺性状。另外我们还发现转基因杂交稻“屉优 418 Xa2 1”对白叶枯病的抗性水平高于转基因恢复系“C418 Xa2 1” ,这可能是遗传背景的差异所致。抗白叶枯病转基因粳型恢复系和杂交稻的育成将有益于杂交稻在我国北方稻区的推广。

滇型杂交粳稻保持系与不育系柱头外露的遗传关系

通过对滇型杂交粳稻保持系和不育系开花期柱头外露率的调查,研究保持系与不育系柱头外露的遗传关系。分析结果表明:保持系柱头单外露率、双外露率与不育系柱头单外露率、双外露率均存在着极显著正相关关系,保持系柱头单外露率与不育系柱头单外露率之间的相关关系最密切;偏相关系数分别为rBA,A1=0.657,rB1A1,A=0.556,rB1A,A1=0.345,rBA1,A=0.100。保持系柱头单外露率、双外露率对不育系柱头单外露率的二元回归方程为:Y=2.623+0.765X1+0.455X2,说明保持系与不育系的柱头外露存在着显著的遗传关系。保持系柱头单外露率对不育系柱头单外露率的贡献(0.660)大于保持系柱头双外露率对不育系柱头单外露率的贡献(0.183),选择柱头外露率高的保持系能够选育出柱头外露率高的不育系。

12个粳稻新不育系的配合力及利用价值评价

以12个新育成的BT型粳稻不育系和8个恢复系为亲本,采用p×q不完全双列杂交(NCⅡ)设计,对其F1代13个农艺性状的配合力进行了分析。除单株穗数的特殊配合力方差不显著外,所有性状的一般配合力方差和特殊配合力方差均达到极显著水平。所测性状主要受亲本一般配合力的影响,主穗实粒数、结实率、单株产量和收获指数受组合特殊配合力的作用较突出。穗长、穗颈长、结实率和收获指数受不育系的影响较大,其余性状均受恢复系的影响较大。亲本一般配合力和组合特殊配合力是相互独立的。一般配合力和特殊配合力与杂种优势呈极显著正相关。不育系以六盐A、丹阳941A、98G26A、99-9A、香粳8016A和95122A较好,有较大的应用潜力;恢复系以C418、J16、晚161和C76较好。

三系杂交粳稻发展缓慢的原因及对策

目前中国杂交粳稻的种植面积仅占粳稻总种植面积的3%。由于籼、粳亚种在感光性和适应性方面存在差异,BT型粳稻不育系与野败型籼稻不育系在不育性的稳定性和开花习性方面存在差异,以及常规粳稻育种发展迅速等原因,与杂交籼稻相比,杂交粳稻发展缓慢。为了促进杂交粳稻的发展,需要加大对杂交粳稻育种的经费资助和人力投入,加强对恢复系品质与产量的改良,加强多种不育细胞质源的利用研究,加强对不育系开花习性的改良,加强杂交粳稻亲本种子的保纯繁殖及加强生物技术与常规育种技术的结合。

高原粳稻子预44抗稻瘟病基因遗传分析和定位

以高感稻瘟病的低海拔粳稻江南香糯与高抗稻瘟病的高原粳稻子预44作亲本进行杂交,获得F1、F2、BC1F1和以F2单粒传构建的、由276个株系组成的F7重组自交系群体。分别用稻瘟病菌生理小种ZB13和ZE1对两亲本江南香糯和子预44及其杂交后代群体F1、F2和BC1F1进行抗性接种鉴定和遗传分析。结果表明,子预44对稻瘟病菌生理小种ZB13和ZE1的抗性都表现为单基因控制的显性遗传。进一步利用重组自交系F7群体的266个有效株系作为定位群体,将抗稻瘟病菌生理小种ZE1的基因定位在水稻第11染色体上与SSR标记RM206间遗传距离为0cM的位置,暂定名为Pi-zy(t)。这些结果为进一步将子预44中的抗性基因用于水稻抗病育种及该抗稻瘟病基因的克隆奠定了重要基础。

优质高产杂交晚粳组合“8优161”及其三系选育

8优161即“8204A／R161”是一个高产、优质兼备的杂交晚粳优良新组合。1991～1993年参加上海市杂交晚粳区试和生产试验，三年均比对照寒优1027增产，平均增产8.56％，1993年生产试验比寒优湘晴平均增产11．1％，南方稻区杂交粳稻联合鉴定，比对照秀水04增产12．88％。大面积试种产量在9000kg／hm2以上，1996年最高产量达到11497．35kg／hm2。米质优良，主要指标达到部颁优质米标准。突出优点为出米率高，稳大粒多结实率高，灌浆速度快。不育系8204A不育性稳定，产量的特殊配合力强。恢复系R161恢复力强，米质特别优良。

4份籼粳中间型广亲和恢复系的生物学特性及其杂种优势利用

通过籼粳杂交、广亲和特性鉴定以及育性恢复能力测定等手段,选育出CH58、CH59、C18和C84四个籼粳中间型广亲和恢复系。生物学特性研究结果表明,CH58、CH59、C18和C84的程氏指数分别为11、13、13和15,其中CH58、CH59和C18的籼粳属性为偏籼,C84为偏粳。广亲和特性鉴定和育性恢复能力测定结果表明,四个恢复系具有良好的广亲和性,且都能恢复滇型、BT型、矮败型等粳稻不育系以及野败型、印水型等籼稻不育系的育性,恢复谱广。花时特性研究表明,籼粳中间型广亲和恢复系的开花高峰要明显早于粳稻不育系春江16A。粳不籼恢亚种间杂交稻在单株产量、每穗粒数、二次枝梗数、株高、一次枝梗数和剑叶宽等性状上表现出明显的中亲优势和竞争优势。利用CH58等四个籼粳中间型广亲和恢复系与粳稻不育系配组,已选育出春优58、春优658、春优59、春优618等粳不籼恢亚种间杂交稻,已通过国家、浙江省等品种审定。CH58等四个籼粳中间型广亲和恢复系广亲和性好,恢复谱广,在三系法籼粳亚种间杂种优势利用中具有良好的应用前景。

粳型三系杂交稻亲本开花习性研究

研究了4个杂交粳稻不育系、15个恢复系的开花习性，结果表明：不育系的开花历期平均为7．0d，而恢复系的开花历期平均2．5d，二者差别达3．5d；不育系的午前花率平均为58．8％，而恢复系的午前花率平均为73．9％；多数恢复系的开花高峰出现在开花后第2～3d，而不育系却出现在开花后4～5d（中作59A除外）。除不育系3A外，其它不育系的日开花高峰均晚于恢复系。不同的恢复系之间在开花习性上也存在差异。研究粳稻不育系和恢复系的开花习性，能够有效调控其亲本的花期、花时，提高制种产量。