杂交稻特殊配合力与杂种优势、亲本间遗传距离的相 关性

杂交水稻育种的实质是配合力育种, 筛选高特殊配合力的杂交水稻组合才能选育出在生产上有实用价值的强优势组合。文章利用SSR标记检测了9个三系杂交稻亲本(5个不育系和4个恢复系)之间的遗传距离, 结合20个杂交稻组合(5×4 NCII)的产量表现, 分析了杂交水稻特殊配合力(Special combining ability, SCA)效应与产量杂种优势、亲本间遗传距离的相关性。结果表明, 特殊配合力效应与对照优势(相关系数r₁=0.5609)、平均优势(相关系数_r2=0.541)之间均呈显著正相关, 而与亲本遗传距离之间相关不显著, 相关系数(r=0.2143)较小。说明本研究所配组合的特殊配合力效应能充分反映杂种优势, 选用的杂交亲本能组配出强优势组合; 而杂交亲本遗传距离的大小并不能反映特殊配合力效应, 分子标记遗传距离与特殊配合力的相关性还有待于进一步的探讨。     

酯酶同工酶及RAPD技术在香菇杂种优势研究中的应用

采用酯酶同工酶及RAPD技术对香菇3个亲本双核体(苏香、野生46#、野生80#)及其10个单核体、以及它们的10个杂交后代进行了遗传差异和亲缘关系的研究,同时针对亲本单核体酯酶同工酶标记和RAPD标记遗传距离、以及杂交子和亲本单核体RAPD标记遗传距离与香菇产量超亲优势进行了相关性分析。结果表明,酯酶同工酶和RAPD技术都可进行香菇杂种优势群的划分研究,但RAPD标记检测的多态性要远远高于酯酶同工酶标记。相关分析结果表明,亲本单核体酯酶同工酶标记遗传距离与香菇产量超亲优势无相关性,而RAPD标记遗传距离与其存在极显著正相关;杂交子和以苏香为来源的单核体亲本之间RAPD标记遗传距离与香菇产量超亲优势也存在极显著正相关,而杂交子和以野生46#、野生80#为来源的单核体亲本之间RAPD标记遗传距离与其相关不显著。     

酯酶同工酶及RAPD技术在香菇杂种优势研究中的应用*

采用酯酶同工酶及RAPD技术对香菇3个亲本双核体(苏香、野生46#、野生80#)及其10个单核体、以及它们的10个杂交后代进行了遗传差异和亲缘关系的研究,同时针对亲本单核体酯酶同工酶标记和RAPD标记遗传距离、以及杂交子和亲本单核体RAPD标记遗传距离与香菇产量超亲优势进行了相关性分析。结果表明,酯酶同工酶和RAPD技术都可进行香菇杂种优势群的划分研究,但RAPD标记检测的多态性要远远高于酯酶同工酶标记。相关分析结果表明,亲本单核体酯酶同工酶标记遗传距离与香菇产量超亲优势无相关性,而RAPD标记遗传距离与其存在极显著正相关;杂交子和以苏香为来源的单核体亲本之间RAPD标记遗传距离与香菇产量超亲优势也存在极显著正相关,而杂交子和以野生46#、野生80#为来源的单核体亲本之间RAPD标记遗传距离与其相关不显著。     

酯酶同工酶及RAPD技术在香菇杂种优势研究中的应用

采用酯酶同工酶及RAPD技术对香菇3个亲本双核体(苏香、野生46^#、野生80^#)及其10个单核体、以及它们的10个杂交后代进行了遗传差异和亲缘关系的研究,同时针对亲本单核体酯酶同工酶标记和RAPD标记遗传距离、以及杂交子和亲本单核体RAPD标记遗传距离与香菇产量超亲优势进行了相关性分析。结果表明,酯酶同工酶和RAPD技术都可进行香菇杂种优势群的划分研究,但RAPD标记检测的多态性要远远高于酯酶同工酶标记。相关分析结果表明,亲本单核体酯酶同工酶标记遗传距离与香菇产量超亲优势无相关性,而RAPD标记遗传距离与其存在极显著正相关;杂交子和以苏香为来源的单核体亲本之间RAPD标记遗传距离与香菇产量超亲优势也存在极显著正相关,而杂交子和以野生46^#、野生80^#为来源的单核体亲本之间RAPD标记遗传距离与其相关不显著。     

水稻子粒硒含量的遗传及QTL检测

富硒功能水稻具有富硒、优质、保健、防病、安全等特点,已成为当前研究的热点。子粒硒含量的QTL定位对研究富硒功能水稻的遗传育种具有重要的意义。以籼稻亲本奉新红米和明恢100杂交的145个株系的F2群体构建遗传连锁图谱,图谱拟合92个SSR标记位点,覆盖水稻基因组2187.5 cM,标记间平均遗传距离为23.7 cM,占水稻全基因组的49.2%。采用复合区间作图法,对水稻子粒硒含量进行QTL分析,在第5染色体上共检测到2个新的水稻子粒硒的QTL,对表型变异的贡献率分别为6.39%、8.01%。     

湿加松亲本间SNP遗传距离与生长性状杂种优势关系研究

通过估算湿加松亲本间SNP位点遗传距离,以有效预测杂交后代的树高、胸径、材积杂种优势,为分子辅助交配设计育种提供参考。利用SLAF-seq技术对131个湿加松亲本种质资源进行测序,获得有效的SNP标记;基于SNP位点信息,利用MEGA5.0软件估算13个湿加松亲本间遗传距离,并进行聚类分析,同时利用SPSS软件分析13个杂交组合生长性状杂种优势与SNP遗传距离的相关性。SLAF-seq共获得53 952个多态性SLAF标签,96 736个有效SNP标记;湿加松亲本间遗传距离介于0.425 1～0.490 6,亲本间SNP遗传距离与树高、胸径、材积生长性状杂种优势相关系数分别为0.680、0.648、0.624,均达到显著正相关水平。SLAF-seq技术可提供海量SNP位点,根据海量SNP位点信息可估算湿加松亲本间遗传距离,以有效预测树高、胸径、材积杂种优势。     

基于掖478导入系的玉米百粒重QTL鉴定

玉米百粒重是产量性状的主要组成因子,对其控制位点进行QTL鉴定或基因克隆,将有益于其遗传控制的研究和分子育种的实施。本研究以导入系SL19-41为材料,该导入系是以我国玉米育种中广泛应用的骨干自交系掖478(Ye478)为遗传背景导入QB80染色体片段的纯合系。使用该导入系与Ye478杂交构建分离群体(F2、F2:3家系和BC1F1),通过3个环境下的田间试验,利用Ici Mapping的逐步回归区间作图法进行百粒重QTL定位,以及进行QTL位点连锁标记的表型效应分析。结果表明:鉴定了2个百粒重QTL位点,其中位于第4染色体bnlg1784~umc1194区间QTL位点q KW4-1在3个环境下均被检测到,可解释的表型变异为6.74%~17.81%,阐明了导入系SL19-41百粒重性状的遗传机制,同时也获得了改良版的Ye478(Ye478QB80),为玉米百粒重的遗传改良提供有益的分子标记,也为克隆百粒重基因提供材料来源。     

裸燕麦子粒性状的QTL研究

以六倍体裸燕麦578(大粒品种)和三分三(小粒品种)为亲本进行杂交,构建包含202个家系的F2遗传作图群体。由172个SSR标记构建出包含21个连锁群的遗传连锁图谱。采用复合区间作图对子粒性状进行QTL定位,共检测到17个控制子粒长度、宽度、千粒重的QTL位点。其中,6个与子粒长度相关的QTL位点表型的贡献率为0.70%~12.83%,5个与子粒宽度相关的QTL位点表型的贡献率为0.77%~12.92%,6个与子粒千粒重相关的QTL位点表型的贡献率为0.58%~10.64%。在这些QTLs中有4个的贡献率达到了10%以上,分别是与子粒长有关的qGL-2(12.83%)、与子粒宽有关的qGW-5(12.92%)以及与千粒重有关的qTGW-3(10.64%)和qTGW-4(10.05%),被认为是主效基因所在位点。而且qGL-2和qTGW-4位于连锁群的相同位置上。还发现第3号连锁群上AM1089~AM1512区段分别与子粒长度、宽度和千粒重相关,同时3号连锁群AM86-2~AM1044区间分别与子粒长度和千粒重相关,而位于第21号连锁群AM3217~AM965区段分别与子粒宽度和千粒重相关。这一研究为燕麦子粒性状的深入研究和相关标记开发以及分子辅助选择研究奠定了基础。     

杂交粳稻及其亲本千粒重与产量、品质的相关性

为了探明杂交粳稻及其亲本千粒重与产量、品质的关系,以4个千粒重介于23.1~28.0 g之间的BT型不育系和24个千粒重介于18.1~32.0 g之间的三系粳稻恢复系,采用p×q不完全双列杂交(NCⅡ)设计,配制96个杂交组合为试验材料,对F1千粒重优势表现、F1千粒重与亲本千粒重及其与产量、品质性状间的相关性进行分析,确定高产优质兼顾的杂交粳稻的千粒重范围。结果表明:(1)56.3%的杂交组合千粒重超过其双亲平均值,19.8%的杂交组合千粒重表现正向超亲优势;(2)F1千粒重与母本千粒重、父本千粒重、双亲千粒重平均值的相关性均达极显著水平(r=0.33**、0.71**、0.78**),且恢复系千粒重对杂种的影响大于不育系;(3)F1千粒重、父本千粒重及双亲千粒重平均值与组合单株产量的相关性均达极显著水平(r=0.55**、0.47**、0.51**),母本千粒重与组合单株产量相关不显著;(4)F1千粒重、父本千粒重与糙米率、精米率、整精米率、垩白粒率、粒长、粒宽均呈极显著正相关,与透明度呈显著正相关,母本千粒重与垩白粒率、垩白度、粒长均呈极显著正相关,与粒宽呈显著正相关;(5)杂交粳稻育种中具有高产优质兼顾的F1千粒重范围应在25.1~27.0 g之间。     

作物杂种优势遗传基础的研究进展

杂种优势是指两个遗传基础有差异的亲本杂交生成的杂合子在生长势和生物量等方面优于两个亲本的现象。虽然杂种优势在农业生产中已经得到很好的利用,但对于其形成的遗传机理仍没有统一的解释。目前,解释杂种优势遗传基础的模型主要有显性、超显性和上位性。分子数量遗传学的发展加快了杂种优势的研究。该文主要综述了近期在数量性状位点(QTL)水平的杂种优势遗传基础的研究进展,对作物杂种优势的QTL定位进行了回顾和展望。     

关于玉米粒重的研究

玉米粒重由库容大小和库充实度决定,两者受籽粒和植株体内同化物供应和激素代谢水平的影响。在综述了粒重形成过程,介绍了各种环境因子（温度、水分、光照等）和栽培措施（营养元素、植物生长调节剂等）对库容建成和库充实度的影响的同时,分析了控制粒重增加的生理原因。     

关于玉米粒重的研究

玉米粒重由库容大小和库充实度决定,两者受籽粒和植株体内同化物供应和激素代谢水平的影响.在综述了粒重形成过程,介绍了各种环境因子(温度、水分、光照等)和栽培措施(营养元素、植物生长调节剂等)对库容建成和库充实度的影响的同时,分析了控制粒重增加的生理原因.     

The Effects of Floret Sterilization on Grain Number and Grain Weight in Wheat Ears

This paper describes the effects of sterilizing certain floretson the development of others within the ears of wheat, cultivarMaris Ranger. Sterilization of all the florets in spikelets2, 4, 6, and 8 (numbered from the base of the ear upwards) ledto more grain setting and greater grain growth in the untreatedspikelets. These compensatory increases were insufficient toprevent a depression in the yield of grain per ear. Sterilizationof more than one of the basal florets of spikelet 8 led to amore frequent setting of the grain in the distal florets onthat spikelet and to the centrally positioned grain becomingheavier. The physiological basis for the inhibitory influences of theolder and developing grain on the unfertilized florets and youngergrain is discussed.     

大麦胚乳细胞增殖动态及其与粒重的关系

大麦籽粒胚乳细胞数在花后17 d左右就基本决定,增殖动态可用Richards曲线方程拟合,决定系数0.9900以上,达极显著水平.籽粒胚乳细胞数目、单个细胞重量与粒重均存在极显著正相关,r值分别为0.9019**和0.9409**.籽粒胚乳细胞数对粒重影响最大,单个胚乳细胞重次之,胚乳细胞数的多少是决定粒重的主要原因.     

The Effect of High Temperature at Different Stages of Ripening on Grain Set, Grain Weight and Grain Dimensions in the Semi-dwarf Wheat 'Banks'

Grain number in the wheat cultivar Banks was reduced by up to11 % with a rise in temperature from 21/16 °C to 30/25 °Cover a 10-d period immediately following first anthesis in general,the upper ‘d’ and ‘c’ florets were moreaffected by high temperature than the basal ‘a’and ‘b’ florets within a spikelet and florets fromthe upper spikelets were more sensitive than those lower onthe ear Grain weight and grain length at maturity were most affectedby a 10 d period of high temperature commencing 7–10 dafter anthesis However, if dry-matter accumulation between thestart of a treatment and grain maturity was used as a base forcomparison, the response was more uniform throughout development,with a peak in sensitivity 25 d after anthesis Although grainposition within an ear did not have a large effect on the responseto temperature, grains from the basal spikelets were more sensitivethan those from the apex, and the upper floret grains of a spikeletwere more sensitive to high temperature than those at the base There is a need to obtain, for a range of cultivars, more comprehensivedata on the effect of the timing and degree of temperature stressfollowing anthesis, for use in interpreting the response torising temperatures late in the development of the crop in thefield Triticum aestivum L, wheat, temperature, grain development     

Effects of Favorable Alleles for Water-Soluble Carbohydrates at Grain Filling on Grain Weight under Drought and Heat Stresses in Wheat

Drought, heat and other abiotic stresses during grain filling can result in reductions in grain weight. Conserved water-soluble carbohydrates (WSC) at early grain filling play an important role in partial compensation of reduced carbon supply. A diverse population of 262 historical winter wheat accessions was used in the present study. There were significant correlations between 1000-grain weight (TGW) and four types of WSC, viz. (1) total WSC at the mid-grain filling stage (14 days after flowering) produced by leaves and non-leaf organs; (2) WSC contributed by current leaf assimilation during the mid-grain filling; (3) WSC in non-leaf organs at the mid-grain filling, excluding the current leaf assimilation; and (4) WSC used for respiration and remobilization during the mid-grain filling. Association and favorable allele analyses of 209 genome-wide SSR markers and the four types of WSC were conducted using a mixed linear model. Seven novel favorable WSC alleles exhibited positive individual contributions to TGW, which were verified under 16 environments. Dosage effects of pyramided favorable WSC alleles and significantly linear correlations between the number of favorable WSC alleles and TGW were observed. Our results suggested that pyramiding more favorable WSC alleles was effective for improving both WSC and grain weight in future wheat breeding programs.     

Rapid Identification of Major QTLs Associated with Rice Grain Weight and Their Utilization

To uncover the genetics of rice grain weight, we constructed an RIL population derived from a cross between a large grain accession M201 and a small size variety JY293. Specific Locus Amplified Fragment Sequencing (SLAF-Seq) technology was used to genotype two bulked DNA pools made from individual DNA of the heaviest 30 lines and the lightest 30 lines according to the 1000 grain weight (TGW). Bulked segregant analysis (BSA) was used to identify SLAFs strongly associated with TGW. Two marker-intensive regions at 24,600,000–24,850,000 bp and 25,000,000–25,350,000 bp on chromosome 3 were identified tightly related to the TGW. Then a linkage map of chromosome 3 was constructed with SSR markers and some SLAF derived single nucleotide polymorphisms (SNPs). Quantitative trait locus (QTL) mapping for TGW, grain length, grain width, and grain thickness revealed one major QTL in the second hot-region and two other minor QTLs for grain weight. These three QTLs displayed hierarchical effects on grain length and grain weight in order of qTGW3.2 (qGL3) qTGW3.1 (GS3) qTGW3.3. Multiple comparisons of means among the eight combinations of 3 QTLs revealed that the lines with two of three QTLs deriving from M201 displayed a large grain weight phenotype (TGW 40.2g, average data of three years) and lines with both qTGW3.1 and qTGW3.3 alleles from M201 (42.5g) had similar grain weight to the qTGW3.2 (40.8g) alone. Two strategies with similar effectiveness were proposed to improve grain weight by marker-assisted selection (MAS). One is to introduce the novel qTGW3.2 allele alone, and the other is to pyramid qTGW3.1 and qTGW3.3 alleles together. One new allele of GS3 (39 bp deletion in intron 1) and two SNPs in coding sequence of qGL3 identified in this study from M201 are useful in pyramiding elite alleles for molecular breeding for improvement of rice yield.     

Gibberellin-like Substances in Developing Barley Grain and Their Relation to Dry Weight Increase

Gibberellin-like activity of two varieties of barley (Hordeum vulgare L.) at different stages of grain development was determined by barley endosperm bioassay (acid phosphatase bioassay). Activity of the acidic ethyl-acetate fraction (“free” GAs) in both varieties displayed two maxima, a first maximum at the 9th day and a second one 20 to 21 days after pollination. Activity of the n-butanol fraction (“bound” GAs) first dropped to a minimum level at the 9th day, then increased to reach a maximum 32 days after pollination, and finally decreased again towards maturity. From the 9th day after pollination, a conversion of “free” GAs to “bound” GAs has probably occurred. From the 12th day after pollination, the curves of rate of dry weight increase and of “free” GAs run nearly parallel, but the latter reached its maximum about 2–4 days earlier than the former. The results indicate that gibberellins may participate in the regulation of the accumulation processes into the barley grain.     

The Contribution of Different Organs to Grain Weight in Upland and Swamp Rice

The contribution of dry matter was significantly greater inthe ears of Dima than that of Kindinga. The flag-leaf lamina,flag-leaf sheath and peduncle, lower leaves and stem of Kindingamade greater contribution of dry matter in the grain at harvestthan those of Dima. On the average of the two varieties 23 percent. of the dry matter in the grain at harvest originated fromphotosynthesis in the ears; 60 per cent. came from photosynthesisin the flag-leaf lamina and sheath and peduncle and 17 per cent.from parts of the shoot below the flag leaf.     

AB-QTL法定位广东高州野生稻谷粒外观性状和粒重基因

以广东高州野生稻为供体亲本,在栽培稻粤香占的遗传背景下构建了一套高代回交BC3F1群体,共计245个株系.选择117对在双亲间有多态性的SSR引物,对BC3F1株系进行了基因型分析.利用AB-QTL分析法对谷粒外观性状和粒重进行QTL分析,结果表明粒长、粒宽、粒长宽比以及粒重4个性状共检测到23个QTL,分布于水稻第1、2、3、4、5、6、8和11染色体上,单个QTL的贡献率范围为3.77%～28.67%.其中有6个QTL的贡献率超过20%,分别是控制粒宽的qGW-11-1,控制长宽比的qLWR-2和qLWR-11,控制粒重的qGWt-5-1、qGWt-5-2和qGWt-11-1.与现有的以普通野生稻为供体的相关研究比较,本研究所定位的基因数目较多,表明高州野生稻亟需研究利用.