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1.
甘蓝型油菜发芽种子耐湿性的主基因+多基因遗传分析 总被引:8,自引:0,他引:8
油菜湿害是我国特有的自然灾害,对油菜种子发芽、出苗和幼苗生长造成严重影响,导致单产显著下降。为研究油菜种子发芽耐湿性的遗传规律,本文利用耐湿性遗传差异较大的2个甘蓝型油菜纯系中双9号和GH01的杂交后代衍生的世代家系群体构建油菜耐湿性遗传体系,并以主基因+多基因家系世代联合分析方法对油菜耐湿性的遗传规律进行分析。结果表明,中双9号×GH01组合的耐湿性的遗传受2对完全显性主基因+加性-显性多基因控制,表现为耐湿对不耐湿完全显性。该组合的第1对主基因加性效应与显性效应相等,为0.0696;第2对主基因的加性效应与显性效应相等,为0.0530。多基因加性效应为0.3275,显性效应为负值([h]= –0.2137)。主基因存在显性效应,该组合的耐湿性存在杂种优势,多基因显性效应为负,多基因显性效应使F1代耐湿性降低。F2家系的主基因遗传力为73.57%,表现出较高的遗传力,建议育种工作者对耐湿性在早期选择效率较高。 相似文献
2.
甘蓝型油菜(Brassica napus L.)抗倒伏性状的主基因+多基因遗传分析 总被引:1,自引:0,他引:1
应用植物数量性状主基因+多基因混合遗传模型多世代联合分析方法,研究了甘蓝型油菜浙平1号×04Pb11(I)和宁1243×04Pb11(II)的P1、P2、F1、B1、B2和F2 6个世代初花期单株抗压力的遗传。结果表明:抗倒伏性状的遗传在组合I受2对加性-显性-上位性主基因+加性-显性-上位性多基因控制,在组合II受2对加性-显性-上位性主基因+加性-显性多基因控制;2个组合中的2对主基因都以加性效应为主,都表现抗倒对易倒部分显性或完全显性,2对主基因间存在明显的基因互作效应;2个组合中,F2群体主基因遗传率平均为54.71%,而多基因遗传率只在B1群体中检测到,平均为10.56%,表明2个组合的抗倒伏性状是以主基因遗传为主,应在早期世代进行选择;2个组合各群体中,遗传变异平均占表型变异的53.43%,而环境变异平均占表型变异的46.57%,表明环境对油菜抗倒伏性状的影响比较大。 相似文献
3.
甘蓝型油菜(Brassica napus L.)抗倒伏性状的主基因+多基因遗传分析 总被引:3,自引:2,他引:1
应用植物数量性状主基因+多基因混合遗传模型多世代联合分析方法,研究了甘蓝型油菜浙平1号×04Pb11(I)和宁1243×04Pb11(II)的P1、P2、F1、B1、B2和F2 6个世代初花期单株抗压力的遗传。结果表明:抗倒伏性状的遗传在组合I受2对加性-显性-上位性主基因+加性-显性-上位性多基因控制,在组合II受2对加性-显性-上位性主基因+加性-显性多基因控制;2个组合中的2对主基因都以加性效应为主,都表现抗倒对易倒部分显性或完全显性,2对主基因间存在明显的基因互作效应;2个组合中,F2群体主基因遗传率平均为54.71%,而多基因遗传率只在B1群体中检测到,平均为10.56%,表明2个组合的抗倒伏性状是以主基因遗传为主,应在早期世代进行选择;2个组合各群体中,遗传变异平均占表型变异的53.43%,而环境变异平均占表型变异的46.57%,表明环境对油菜抗倒伏性状的影响比较大。 相似文献
4.
陆地棉产量与品质性状的主基因与多基因遗传分析 总被引:17,自引:3,他引:17
对(泗棉3号×TM 1)(组合Ⅰ)和(泗棉3号×CARMEN)(组合Ⅱ)的产量与品质性状进行遗传模型分析,得到有关产量与品质性状的最适遗传模型,其中组合Ⅰ子指的最适遗传模型为负向显性主基因+多基因模型,铃重最适遗传模型为等显性主基因+多基因混合遗传模型,衣分、单株铃数的最适遗传模型分别为两对主基因+多基因和一对主基因+多基因模型。组合Ⅱ中衣分、子指、单株铃数、铃重、整齐度和麦克隆值的最适遗传模型均为无主基因的多基因模型,纤维长度、纤维强度和伸长率最适遗传模型均为一对主基因+多基因模型。主基因个数的预测与分子检测的主效QTL个数基本相符。选用P1、P2、F1和F2∶3四个世代联合分析方法,相比于单个分离世代的分离分析法,增加了试验的精确度,保证分析结果的准确性,并可以鉴别多基因的存在。 相似文献
5.
樱桃番茄果形主基因-多基因混合遗传分析 总被引:4,自引:0,他引:4
以樱桃番茄圆形自交系W403(P1)和梨形自交系W405(P2)为双亲,构建P1,F1,P2,B1,B2和R6个家系世代群体,应用植物数量性状主基因+多基因混合遗传模型和经典遗传学方法对该6个世代群体果形指数进行多世代联合分析,结果显示:W403×W405果形遗传符合2对完全显性主基因+加性-显性多基因模型。B2,B2和F2群体主基因遗传率分别为14.99%,79.05%和79.70%,多基因遗传率分别为5.34%,7.31%和4.89%,说明F2果形表现出较高的主基因遗传率。对W403×W405组合果形性状的改良要以主基因为主,同时注意环境的影响。 相似文献
6.
甘蓝型油菜苗期耐淹性状主基因+多基因遗传分析 总被引:8,自引:1,他引:7
长江中下游是中国油菜主产区,该地区油菜播栽期间雨水多,易产生湿害,造成产量下降。所以研究甘蓝型油菜苗期耐淹性的遗传规律,对选育耐淹性强油菜新品种,提高油菜产量意义重大。本文应用甘蓝型油菜品种WR-4 (耐淹)和WR-5 (不耐淹)杂交后代衍生的6个世代(P1、F1、P2、B1:2、B2:2、F2:3)群体为材料,全淹6 d后去水恢复生长,去水后第7天调查死苗率,以此为耐淹性指标,于2012和2013年对6个世代群体家系进行耐淹性鉴定。应用植物数量性状主基因+多基因混合遗传模型多世代联合分析方法对耐淹性进行遗传分析。结果表明,2个年度该家系群体苗期耐淹性的最适遗传模型分别是E-0和B-3,即2对加性-显性-上位性主基因+加性-显性-上位性多基因和2对加性主基因模型。由此可见,该家系群体甘蓝型油菜苗期耐淹性主要受2对主基因控制,主基因存在加性、显性和上位性效应。当有显性效应存在时(2012年),主基因显性效应值|ha|=0.3475,|hb|=0.0069,大于主基因加性效应值|da|=|db|=0.0036。B1:2、B2:2和F2:3群体的主基因遗传率(h2mg),2012年分别为36.25%、61.40%和61.84%,平均为53.16%;2013年分别为8.30%、30.48%和43.13%;平均为27.30%。2年平均,环境变异占表型变异的59.77%。上述结果表明,甘蓝型油菜苗期耐淹性受2对主基因型控制,但环境对耐淹性状的表型影响较大。F2:3家系群体苗期耐淹性遗传率较高,因此育种上可在早期世代对耐淹性状进行选择。 相似文献
7.
甘蓝型油菜种子中硫代葡萄糖甙总量的遗传分析 总被引:5,自引:0,他引:5
本试验研究了甘蓝型油菜华油16号/Marnoo,华油13号/Wesroona 和71-39/Andor 3个杂交组合各世代种子中硫甙总量的遗传。硫甙含量是高值对低值为部份显性,细胞质不影响后代的硫甙含量。华油16号/Marnoo 和华油13号/Wesroona 两组合的亲本之间存在3对基因的差异,71-39/Andor 的亲本之间存在2对基因的差异。从而表明甘蓝型油菜有2 相似文献
8.
大豆胞囊线虫(Heterodera glycines Ichinohe)是我国大豆的全国性主要病害之一。1号和4号生理小种是黄淮地区的优势小种。以Essex×ZDD2315、Peking×ZDD2315、PI88788×ZDD2226、Peking×ZDD2226的P1、P2、F1、BC1F2为材料,用主基因+多基因混合遗传模型分析大豆对胞囊线虫1号和4号生理小种抗性的遗传机制。结果表明,ZDD2315、ZDD2226对1号生理小种的抗性受主效基因控制,未发现多基因效应,且与Peking存在相同的抗病基因;抗性遗传表现组合特异性,Essex×ZDD2315组合为3对加性主基因遗传模型,主基因遗传率72.02%,PI88788×ZDD2226组合为2对显性上位主基因遗传模型,主基因遗传率62.33%。对4号生理小种的抗性为主基因+多基因混合遗传模型,Essex×ZDD2315、Peking×ZDD2315、PI88788×ZDD2226等3个组合为3对主基因+多基因遗传模型,主基因遗传率分别为67.76%、72.46%和53.25%,多基因遗传率分别为24.48%、21.31%和35.77%;Peking×ZDD2226表现为2对主基因遗传模型,主基因遗传率45.40%。抗性基因表现为隐性,育种上可以在早代选择。培育多抗品种应以抗4号生理小种为主要目标进行基因聚合。 相似文献
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10.
《分子植物育种》2021,19(10):3392-3399
随着中国农村产业结构和种植模式调整,早熟油菜在油菜产业链中的重要地位日益凸显;但油菜早熟性与丰产性和抗逆性存在较大矛盾,使得早熟品种的选育受到极大制约,挖掘早熟种质资源对早熟品种的选育具有重要意义。本研究前期获得一个丰产性好的早熟甘蓝型油菜品系GRG177,以GRG177 (P_1)与甘蓝型油菜品系GRD328 (P_2)为亲本,构建六世代遗传群体(P_1, P_2, F_1, B_1, B_2和F_2),利用主基因+多基因混合遗传模型完成了花期性状的多世代联合分析。结果表明,初花期受2对加性-显性-上位性主基因+加性-显性多基因控制,花期受2对加性-显性-上位性主基因+加性-显性-上位性多基因控制,终花期受1对加性-显性主基因+加性-显性-上位性多基因控制。花期性状在分离世代中具有较高的遗传率(51.79%~96.80%)。本研究为早熟油菜品种选育、GRG177花期性状基因定位与克隆提供较好基础。 相似文献
11.
通过对以温敏亚麻雄性不育系1S为母本配制的6个杂交组合F1、F2代主要农艺性状和产量性状杂种优势的测定和分析,结果表明:不同杂交组合F1、F2代在株高和工艺长度上的平均优势均表现为负向超父本优势,而各产量性状上的平均优势均表现出很强的正向超父本优势;但与F1代相比,F2代平均优势明显下降。产量性状构成因素平均优势大小顺序为:单株产量>单株果数>千粒重>每果粒数。不同组合间F1、F2代杂种优势表现差异较大,其中1S×黑亚15号组合产量性状的超父本优势最强,F1、F2代均表现出很强的杂种优势。 相似文献
12.
用双标图分析油菜双列杂交试验 总被引:12,自引:3,他引:12
用GGE双标图法对甘蓝型油菜5×4双列杂交试验进行分析,显示了以下结果: (1)GCA较高的亲本为不育系S2、S3和恢复系R2、R3,而SCA较高的亲本是不育系S3、S1和恢复系R2、R4,不育系S5和恢复系R2是区分能力和代表性最好的亲本,SCA较高的组合为S4×R4、S3×R1、S2×R2、S5×R3和S1×R3;(2)对不育系而言,单株角果数和角粒数的GCA与产量GCA呈正相关,株高、千粒重和有效分枝部位的GCA与产量GCA呈负相关。对恢复系而言,单株角果数、主花序角果数、一次分枝数、主花序长度和株高等性状的GCA与产量GCA呈正相关,呈负相关的有千粒重和有效分枝部位。对于杂交种而言,与产量呈正相关的性状为单株角果数和角粒数,呈负相关的为千粒重和有效分枝部位。表明虽然好的不育系和恢复系具有不同的特点,但相同之处为单株角果数较多,千粒重较小和有效分枝部位较低。同时在亲本选配中应注意优势性状互补。 相似文献
13.
采用方差分析、相关分析、通径分析和逐步回归分析对串叶松香草种子产量构成因子进行了研究,结果表明:在串叶松香草株高、每株生殖枝数、每株花序数、每花序种子数、千粒重和单株种子产量这6个产量因子中,除株高和千粒重在不同生长年限之间不存在显著差异外,其它因子均存在显著差异;每株花序数和每花序种子数与单株种子产量间存在极显著相关,是串叶松香草种子产量的主要影响因子;串叶松香草单株种子产量的回归模型为:Y=-87.50047+0.14578X3+4.19497X4(F=23.51,Pr0.0001)。 相似文献
14.
High performing V. faba genotypes have been successfully selected using an approach that combines the univariate and multivariate biometrical analyses of F|S from two complete 7×7 and 9×9 diallel cross experiments. The method used in the analyses included canonical analysis and cluster analysis of the phenotypic and genetic variance-covariance matrices. All analyses have been applied, to the yield and yield components. Results of analyses provided information on the unit of selection, the selection criteria, and the selection procedure. The choice of an array of F1S seems to be more efficient than the choice of a single F2. Among the yield components studied, 100-seed weight is the most important selection criterion which can improve yield most efficiently. The detected importance of the nonadditive genetic effects is that selection after intercrossing random plants from the mixed F1 progenies of the same array is expected to be more effective than selection after Selfing. 相似文献
15.
试验随机选择4月龄的巫山黑山羊、波×巫F1、大足黑山羊、波×大F1公羔各9只,去势,强度育肥60天后,每个群体选择6只进行屠宰并对其进行肉品质特性研究。结果显示,(1)波×大F1肌肉中的总脂肪显著高于巫山黑山羊(P<0.05),灰分极显著低于巫山黑山羊和大足黑山羊(P<0.01),粗蛋白、胆固醇和水分在4个群体中差异不显著(P>0.05)。(2)各种氨基酸在大足黑山羊肌肉中的含量最高,波×巫F1次之,波×大F1最低;波×巫F1肌肉中的14种氨基酸含量较其母本有明显的上升趋势,而波×大F1 却有16种氨基酸明显低于其母本;波×巫F1中有5种必需氨基酸得分接近或超过100,其他群体中只有4种。(3)硬脂酸、棕榈酸和豆蔻酸在波×巫F1肌肉中的含量最高,油酸和亚油酸分别在波×大F1和大足黑山羊肌肉中的含量显著高于巫山黑山羊(P<0.05),大足黑山羊肌肉中的亚油酸占肌内脂肪的相对含量显著高于其杂交后代波×大F1(P<0.05)。(4)4个群体中的磷元素均明显高于其他元素,硒元素在波×巫F1肌肉中的含量最高,显著的高于在波×大F1肌肉中的含量(P<0.05),波×巫F1较其母本有7种元素呈上升趋势,而波×大F1则有5种元素较其母本明显降低。 相似文献
16.
Prity Sundaram Srinivasan Samineni Sobhan B. Sajja S. P. Singh R. N. Sharma Pooran M. Gaur 《Euphytica》2018,214(4):63
Seed size, determined by 100-seed weight, is an important yield component and trade value trait in kabuli chickpea. In the present investigation, the small seeded kabuli genotype ICC 16644 was crossed with four genotypes (JGK 2, KAK 2, KRIPA and ICC 17109) and F1, F2 and F3 populations were developed to study the gene action involved in seed size and other yield attributing traits. Scaling test and joint scaling test revealed the presence of epistasis for days to first flower, days to maturity, plant height, number of pods per plant, number of seeds per plant, number of seeds per pod, biological yield per plant, grain yield per plant and 100-seed weight. Additive, additive?×?additive and dominance?×?dominance effects were found to govern days to first flower. Days to maturity and plant height were under the control of both the main as well as interaction effects. Number of seeds per pod was predominantly under the control of additive and additive?×?additive effects. For grain yield per plant, additive and dominance?×?dominance effects were significant in the cross ICC 16644?×?KAK 2, whereas, additive?×?additive effects were important in the cross ICC 16644?×?JGK 2. Additive, dominance and epistatic effects influenced seed size. The study emphasized the existence of duplicate epistasis for most of the traits. To explore both additive and non-additive gene actions for phenological traits and yield traits, selection in later generations would be more effective. 相似文献
17.
以樱桃的优良杂种优系F8、F10(Prunus.avium L.×Prunus . pseudocerasus L.)以及H8、H10(Prunus. cerasus L ×Prunus.pseudocerasus L.)为材料,MS和F14为基本培养基,通过添加不同浓度的6-苄基氨基腺嘌呤(6-BA)、 3-吲哚丁酸(IBA) 、赤霉素(GA3)进行杂种樱桃组织培养和快速繁殖技术的研究。结果表明:F14+6-BA (0.3~0.5)mg/L+GA30.1(单位下同)适合各个杂种优系初代培养诱导出植株,F14+6-BA (0.5~1.0)+IBA (0.1~0.3)+GA30.1能够很好的促进各个杂种优系分化不定芽,1/2MS+IBA0.5(或NAA 0.8)是各个杂种优系的最佳生根培养基。 相似文献
18.
H. Guedes-Pinto J. Lima-Brito C. Ribeiro-Carvalho J. P. Gustafson C. O. Qualset 《Plant Breeding》2001,120(1):27-31
Limited genetic knowledge is available regarding crossability between hexaploid triticale (2n= 6x= 42, 21″, AABBRR, amphiploid Triticum turgidum L.‐Secale cereale L.) and rye (2n= 14, 7″, RR). Our objectives were to determine (1) the crossability between triticales and rye and (2) the inheritance of crossability between F2 progeny from intertriticale crosses and rye. First, ‘8F/Corgo’, a hexaploid triticale, was crossed as a female with two landrace ryes, ‘Gimonde’ and, ‘Vila Pouca’ and two derived north European cultivars, ‘Pluto’ and ‘Breno’. These crosses produced 21.7, 20.9, 5.9, and 5.6%, seed‐set or crossability, respectively, showing that the landrace ryes produced higher seed‐set than the cultivars. Second, ‘Gimonde’ rye was crossed as a male with four triticales for 3 years. The control cross, ‘Chinese Spring’ wheat × rye, produced 80‐90% seed‐set. Of the four triticales, ‘Beagle’ produced 35.7‐56.8% seed‐set. The other three triticales produced less than 20% seed‐set, showing that the triticales differ in crossability with ‘Gimonde’ rye. Third, six FiS from intertriticale crosses (‘8F/Corgo’בBeagle’, ‘Beagle’בCachirulo’, ‘Lasko’בBeagle’, ‘8F/Corgo’בCachirulo’, ‘Lasko’בCachirulo’, ‘Lasko’ב8F/Corgo’) were crossed to ‘Gimonde’ rye. Results indicated that lower crossability trait was partially dominant in the two F1S from crosses involving ‘Beagle’(high crossability) with‘8F/Corgo’ and ‘Cachirulo’(low crossability) and completely dominant in the ‘Beagle’בLasko’ cross, as it happens in wheat. Fourth, segregants in four F2 populations (‘Lasko’בBeagle’, ‘8F/Corgo’בBeagle’, ‘Lasko’ב8F/Corgo’, and‘8F/Corgo’בCachirulo’) were crossed with rye. Segregation for crossability was observed, although distinct segregation classes were blurred by environmental and perhaps other factors, such as self‐incompatibility alleles in rye. Segregation patterns showed that ‘Beagle’, with high crossability to rye, carries either Kr1 or Kr2. The three triticales with low crossability with rye were most likely homozygous for Kr1 and Kr2. Therefore, it is likely that the Kr loci from A and B genomes acting in wheat also play a role in triticale × rye crosses. 相似文献
19.
Genetic diversity among the 88 entries including eighty F4 derivatives i.e., 20 each selected from Brassica crosses viz., B. juncea × B. napus, B. juncea × B. rapa var. toria, B. juncea ×B. rapa var. yellowsarson and B. tournefortii × B. juncea, and eight parent genotypes was assessed through multivariate analysis (D2 statistic). Significant differences among the family groupsas well as within the family were recorded for all the 14 characters
studied. The D2 analysis revealed enormous diversity among the interspecific cross derivatives. The genetic distances calculated among different
Brassica species revealed that B. tournefortii had maximumdiversity with B. juncea followed by B. napus, B.rapa var. toria and B. rapa var. yellow sarson.Amongst interspecific crosses, maximum diversity was noticed indescendants of cross B. tournefortii × B. juncea followed byB. juncea × B. napus, B. juncea × B.rapa var. toria and the least in the cross B. juncea ×B. rapa var. yellow sarson. These results indicated that the derivatives selected from cross of diverse parents revealed greater diversity. The clustering
pattern showed that many derivatives of the cross fell into the same cluster but in many cases in spite of common ancestry
many descendants of the cross spread over different clusters. The characters, namely, plant height, secondary branches per
plant, days to flowering and1000-seed weight were contributed maximum towards genetic divergence.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
20.
为探讨蒜茬花生高产栽培种植模式,2014—2015年在聊城农科院科技示范园对其田间配置方式及种植密度进行试验研究。试验采用裂区试验设计,田间配置方式(垄上小行距)为主处理,设A1(25 cm)、A2(35 cm)、A3(45 cm);密度为副处理,设单粒精播B1(18万株/hm~2)、B2(21万株/hm~2)、B3(24万株/hm~2)、B4(27万株/hm~2)、双粒穴播B5(13.5万株/hm~2)5个密度水平,研究田间配置方式和种植密度对花生生育性状、产量性状、干物质积累及田间群体透光率的影响。研究结果表明,主处理垄上小行距A1(25 cm)、A2(35 cm)对花生群体透光率、单株结果数、饱果数和荚果干重的有利影响显著高于A3(45 cm),其他性状主处理间差异不大;密度对群体透光率、植株干重、产量性状影响较大,结果显示花生饱果期副处理B2(21万株/hm~2)、B3(24万株/hm~2)、B5(13.5万株/hm~2)群体透光率较低,即群体光截获率较高,更有利于光能利用率的提高。产量结果以A1B3最高,与A1B2、A2B2、A2B3处理产量差异不显著,与其余主副处理协作均差异显著。 相似文献