共查询到19条相似文献,搜索用时 593 毫秒
1.
世界小麦矮化育种主要使用隐性矮源。在普通小麦中发现的显性矮源均因导致植株极度矮化(20~55 cm)而未能在小麦育种中广泛应用。笔者发现,将显性矮源矮变1号(4DS携带Rht10,25~30 cm)及矮苏3(4BS携带Rht3,55 cm)的原种大群体种植或施以诱变因子并将其与中、高秆的小麦品种杂交、回交,从其分离世代的大群体中,均可选择到一些株高呈不同程度提升的稳定的突变株系。采用近等基因系法对不同株高突变衍生系的研究表明:其提升的株高真实遗传,各自均携带一个不同株高的半显性矮秆基因,随突变衍生系株高的提升,近等基因系的产量性状显著优化。采用标志基因测交法以及生理生化遗传标记对突变衍生系携带的不同株高的半显性矮秆基因重新进行了基因定位,确认它们分别与Rht10及Rht3的座位相同,因而均是其突变衍生的复等位基因。提出显性矮秆基因具有"复等位多态特性",即极度矮化的显性矮秆基因容易突变为一群株高提高程度不同的、可以达到小麦育种理想株高的半显性矮秆复等位基因。 相似文献
2.
小麦EMS突变体的创制与性状鉴定 总被引:2,自引:0,他引:2
EMS(甲基磺酸乙酯)诱变育种技术是利用EMS处理种子,使其发生基因突变,在短期内获得有价值的突变体,为育种工作提供丰富遗传变异的一项技术。本研究利用EMS诱变处理小麦品系山农666-2和山农861的种子,在M_1代分别收获203、306个单株,种成M_2株行;在M_2代,每一行收获一个代表性单株,同时收获有明显变异的单株,最终,山农666-2及山农861各收获290、412个单株,种成M_3株系。对M_3代进行了株高、抽穗期、白粉病、条锈病等性状的调查分析。在山农666-2中,株高变异明显,变异范围为40~80cm,获得一些高秆、矮秆变异株系;鉴定出一些高抗条锈病或高感白粉病的株系;发现较野生型最早提前2天或最晚延迟14天抽穗的株系。在山农861中,同样获得高秆、矮秆变异株系,株高变异范围在25~85 cm;鉴定出一些高抗白粉病或高感条锈病的株系;抽穗期变异从最早提前3天抽穗至延后11天抽穗。本次诱变处理获得的突变体变异丰富,这为小麦农艺性状相关基因及抗病基因的发掘、克隆及功能研究提供了重要的基础材料,同时也为小麦育种提供了重要的种质来源。 相似文献
3.
为发掘应用新的小麦矮秆突变体,以小麦品种‘邯6172’的航天诱变矮秆突变体为材料,分析该矮化突变对苗期活力、株高、分蘖数、穗粒数、单株产量和收获指数等重要农艺性状的影响,以明确其矮化效应及应用价值。结果表明,该突变为隐性突变,对外源赤霉酸不敏感,对胚芽鞘长度和苗期活力有负面效应;降秆效应约为15.0%,对旗叶长宽和旗叶面积没有负面影响;抽穗期和开花期推迟(3 d);有效分蘖减少,但对小穗数和穗粒数没有负面影响。小麦35 K芯片扫描发现,‘邯6172’突变体与‘邯6172’共有3 613个纯合差异SNP,平均4.1 Mb就有1个突变,变异丰富。 相似文献
4.
以卫星搭载小麦品种陕253突变株系SP5代(航天诱变株系第5代)为材料,进行农艺性状观察和麦谷蛋白亚基SDS-PAGE分析,以及总蛋白质含量测定.结果表明,经卫星搭载后农艺性状、麦谷蛋白亚基变异类型丰富;麦谷蛋白亚基变异频率高于农艺性状变异频率,高分子麦谷蛋白亚基变异主要发生在GluB1位点与GluD1位点,突变株高分子麦谷蛋白亚基区出现3种组合类型,部分株系低分子麦谷蛋白亚基同时发生变异.所有突变株系总蛋白质含量均低于对照,部分株系中与品质密切相关的谷蛋白大聚合体(GMP)含量升高. 相似文献
5.
用3种不同剂量60Co-γ射线辐射处理2个玉米自交系种子,对其诱变后代M1生物学效应及其M3株系主要性状的变异进行了分析。结果表明:①2个玉米自交系M1植株均受到明显的抑制及辐射损伤,具体表现在,株高和穗位高降低,叶面积减小,并且这种抑制损伤效应随着辐射剂量的增加而增大;它们的M1雄穗长和雄穗分枝数均降低;低剂量处理就能引起RO8的穗长和48-2的穗行数在M1代产生较大变化。②诱变后代M3株系各性状出现不同程度的正向突变和负向突变,其中株高、穗位高及叶面积平均值与对照有显著差异的M3株系频率高于主要雄穗及果穗性状,说明这些性状的诱变效果更好;诱变后代各性状的变异幅度和变异系数增大,表明辐射诱变能扩大玉米主要性状的变异谱,拓宽选择范围。此外,在48-2的M3代还获得了2个籽粒颜色发生突变的株系和2个雄性不育突变株系。 相似文献
6.
用3种不同剂量60Co-γ射线辐射处理2个玉米自交系种子,对其诱变后代M1生物学效应及其M3株系主要性状的变异进行了分析.结果表明:①2个玉米自交系M1植株均受到明显的抑制及辐射损伤,具体表现在,株高和穗位高降低,叶面积减小,并且这种抑制损伤效应随着辐射剂量的增加而增大;它们的M1雄穗长和雄穗分技数均降低;低剂量处理就能引起RO8的穗长和48-2的穗行数在M1代产生较大变化.②诱变后代M3株系各性状出现不同程度的正向突变和负向突变,其中株高、穗位高及叶面积平均值与对照有显著差异的M3株系频率高于主要雄穗及果穗性状,说明这些性状的诱变效果更好;诱变后代各性状的变异幅度和变异系数增大,表明辐射诱变能扩大玉米主要性状的变异谱,拓宽选择范围.此外,在48-2的M3代还获得了2个籽粒颜色发生突变的株系和2个雄性不育突变株系. 相似文献
7.
谷子航天诱变后代的农艺性状表现 总被引:4,自引:0,他引:4
2004年选用冀谷12号干种子搭载第20颗返回式卫星进行处理,对诱变后代的农艺性状进行观察。结果显示:SP1代种子出苗率和幼苗生长势受到一定抑制,但拔节后植株生长势增强;SP1代出现的株高、穗长和单株产量等性状变异,SP2代仍得到充分表现;SP1代入选株系各性状基本稳定,株高、穗长和单株产量平均值与SP2代相近,但变异幅度和变异系数均较SP2代明显减小。表明诱变处理可使谷子产生丰富的变异,各性状变异幅度和变异系数明显增大,而且正向变异较多,株高降低,穗长和单株产量增加。SP3代各性状基本稳定。空间诱变缩短了谷子育种周期: 相似文献
8.
[目的]利用甲基磺酸乙酯(EMS)构建酒用糯高粱突变体库,并筛选出田间表型性状明显突变的株系,为糯高粱遗传改良、新品种选育及基因功能研究提供丰富的基础材料.[方法]采用0.4%EMS对糯高粱品种红缨子进行诱变处理,M1代单株收获,并对M2代突变群体开展全生育期的田间表型性状鉴定,筛选出性状明显突变的株系.[结果]经EMS诱变处理后红缨子M1代突变群体田间存活率降至31.9%,且出现了多种性状变异,如叶片白(黄)化、叶片畸形、穗畸形、植株矮化和不育等性状,共获得M1代突变株系1020个.在M2代突变群体中发现86个突变株系,突变频率为8.43%.其中,叶色(白化、黄化、芯叶白化、浅绿色、白绿条纹、黄绿条纹)突变株系42个、叶型(畸形叶、卷曲叶和直立叶)突变株系8个、穗型(畸形、小穗和穗缺失)突变株系10个、生育期(早熟和晚熟)突变株系5个、蜡质(蜡质缺失)突变株系4个、感病性(易感病)突变株系4个、育性(完全不育和半不育)突变株系5个及株高(高杆和矮杆)突变株系8个.[结论]构建的酒用糯高粱EMS突变体库表型变异丰富,可用于高粱功能基因组学研究和酒用糯高粱育种. 相似文献
9.
10.
以3个茄子品种为材料,探讨卫星搭载对茄子SP1至SP4代的变异发生情况。结果表明:卫星搭载对茄子SP1代种子的发芽率和发芽势有一定的影响,但差异不明显。茄子的变异主要出现在SP2代。卫星搭载对茄子株高、最大叶面积、植株开展度及果实性状等都有一定的影响。并提出了茄子空间诱变育种的选育方法:即搭载种子应不少于500粒,SP1代采用单株编号单株留种。SP2代种植时应确保SP1留下的所有单株且群体不少于1 000株。选育重点在SP2代,SP2代只选择变异株进行留种,对入选的变异材料采用单株编号单株留种。SP3代及以后各世代,对有利用价值的变异株系均采取单株留种,下一代每株系种植30株以上,直到选出稳定的优良变异材料。 相似文献
11.
《东北农业大学学报(英文版)》2019,26(4)
Dwarfing is useful to reduce plant height, when breeding high-yielding and non-lodging crops.In this study, a set of natural storage protein subunit-null dwarf mutants of soybean was reported that showed strongly reduced plant stature and deficiency in various 7 S and 11 S subunits, designated as snd1 mutants.Under normal growth conditions, the snd1 mutants showed a severe dwarf phenotype, with plant height of about 25 cm.Compared with wild-type DN47, the mutant snd1 exhibited no obvious morphological differences at the early stage of development.All the snd1 mutants examined had fewer nodes and shorter than normal internodes; the leaves were similar in shape to normal parents, but were dark-green at the mature stage.The flower size was similar to DN47; however, the flowering period was shorter than in the wild-type.Significant variation was noted for protein content, oil content of the seeds and size of seeds(weight of 100 seeds) among 17 snd1 dwarf lines.Genetic analysis indicated that the dwarfism of snd1 was controlled by a single recessive gene.The snd1 dwarf mutant had markedly different dynamic levels of the endogenous hormones gibberellin(GA), brassinosteroid, indole-3-acetic acid and abscisic acid, at the seedling stage.Exogenous GA3 treatment led to recovery of the plant height phenotype of the snd1 mutant; GA3 at 0.1 mm had the largest effect on enhancing plant height.Using molecular markers, snd1 gene was approximately mapped in an interval of 603 kb between markers Satt166 and Satt561 on chromosome 19.Snd1 mutant provided valuable material for hypoallergenic soybean breeding and the snd1 gene might be a novel gene related to plant height in soybean. 相似文献
12.
近等基因系法对小麦显性矮源的研究 总被引:12,自引:0,他引:12
【目的】开拓小麦育种新矮源,克服自小麦矮化育种“绿色革命”以来,仅使用Rht1、Rht2、Rht8等少数几个隐性矮源的局限性,为选育高度集约化的小麦新品种提供条件。【方法】将国内外已定名的5个显性矮源Rht10、Rht3、Rht12、Rht21、奥尔森矮(Olesen dwarf)和西南大学农学与生物科技学院培育与征集的7个致矮力弱的显性矮源回交导入4个中、高秆(85~105 cm)轮回父本品种(BC4F1),建立了4套矮秆基因的近等基因系。2005~2006两年,在非竞争群体条件下开展了近等基因系的多因素品系比较试验,研究矮源及轮回父本遗传背景两个主因素对近等基因系主要农艺性状的影响效应。【结果】12个显性矮源在本试验统一遗传背景条件下株高为37.9~74.3 cm,显性矮源的株高与其株粒重呈高度正相关(r=0.8884),株高每上升1 cm,则株粒重增加0.24 g。随显性矮源株高的提升、致矮力减弱,其近等基因系的农艺性状得到改善。显性矮源的株高提升到60 cm以上时,即有可能达到和超过中、高秆轮回父本的单株生产力,从而作为新型矮源应用于小麦矮化育种。此外,12个显性矮源具有一致的延迟早熟轮回父本抽穗以及降低轮回父本千粒重的多效性效应,这些不利的多效性效应可以通过轮回父本遗传背景的修饰作用加以改良。【结论】株高在50 cm以下的强致矮力显性矮源,难以直接用于小麦育种,但通过矮秆主基因突变以及特殊遗传背景的修饰等途径可以衍生出株高呈不同程度提升、以致达到70~80 cm理想株高的弱致矮力显性矮源。加强株高提升的弱致矮力显性矮源的研究是将显性矮源应用于小麦杂交育种的有效途径。推荐株高在60~75 cm的弱致矮力显性矮源SW07、SW05、女水妖矮、SW02、Rht21用于小麦矮化育种。 相似文献
13.
FU Da-xiong RUAN Ren-wu YIN Jia-min ZONG Xue-feng DAI Xiu-Mei ZHANG Jian-kui LI Ke QU Jie WANG Yi-min 《中国农业科学(英文版)》2003,2(12)
Dwarfing breeding of wheat in the world is confined to the exploitation of recessive dwarfing sources. None of the dominant dwarfing sources discovered in common wheat (Triticum aestivum L. ) has found wide exploitation in wheat breeding due to the extreme dwarfness of their plants (20 -55 cm). We found in our work that some stable mutant lines with their plant height enhanced to different extents could be obtained in large populations derived from the stock seeds of the dominant dwarfing sources Aibian1 carrying Rht10 on 4DS and being 20 - 55 cm tall and Aisu2 carrying Rht3 on 4BS and being 55 cm tall, or from their descendants of induced mutation treatments, or from the segregating descendants of their crosses with mid- or tall-statured genotypes. Subsequently, we studied these mutation-derived lines differing in plant height with near isogenic lines and observed that the character of their enhanced plant height bred true, each carrying a semidominant dwarfing gene for a definite height and that as the plant height of the mutation-derived lines increased, the yield-contributing characters of their near isogenic lines were significantly improved. When test crosses with marker genes and physiological and biochemical genetic marker tests were performed to re-localize the semi-dominant dwarfing genes carried by the mutation-derived lines, it was confirmed that they shared common loci with Rht10 and Rht3 and that they were all mutation-derived multiple alleles. It is thus speculated that dominant dwarfing genes are of "multi-allelic polymorphism". In other words, dominant dwarfing genes, which are ultra-dwarfing, are liable to develop by mutation into a group of multiple alleles with plant height enhanced to different extents and some may have a height close to the ideal plant height for wheat breeding. Therefore, these results offer a fundamentally new approach for the exploitation of dominant dwarfing sources in wheat breeding. 相似文献
14.
利用离子束注入技术筛选陆地棉矮化株 总被引:1,自引:0,他引:1
[目的]降低棉花生产中每年因喷施缩节胺和打顶等农技措施增加的棉花生产成本,促进增产增收,提高棉农收益.[方法]2005年4月通过离子束注入技术,分别用注入剂量为8×1016和12×1016N+/cm2处理早熟陆地棉高代品系B-02,从中获取棉花矮化突变体植株.[结果]通过2005~2009年连续多代的筛选获得了不用喷缩节胺、不用打顶、株高小于60和60~70cm,且品质优于原高代品系B-02的两个系列矮化株系.[结论]通过对矮化植株的SSR分析,表明矮化突变株与原高代品系B-02相比具有较多的遗传差异,为新疆棉花矮化育种创造了新的种质资源. 相似文献
15.
采用NCⅡ设计,用6个不同株高类型(高、中、矮各2个)八倍体小黑麦作母本,用含Rhtl,Rht2,Rht3,Rht10,和RhtlRht2Rhty的5个小麦矮源作父本配制30个杂交组合,通过F_1的显性度(D值)、降秆强度(R值)及F_2株高分布频率,分析了Rht基因在不同株高类型八倍体小黑麦中的反应。主要结果为:1)不同矮秆基因对高、中、矮秆小黑麦降秆趋势一致,即对高秆小黑麦降秆效果最强,中秆次之,矮秆最弱,而不同矮秆基因降秆作用大小顺序为:Rht10>Rht3>Rht1Rht2Rhty>Rht1Rht2.2) 各矮秆基因在F_2染色体数分布不平衡的遗传背景下表达基本正常,Rht10、Rht3显示以矮秆为主的高低峰分布,农林10号、OlesenDwarf显示正态分布,3)连续回交能提高矮秆小黑麦株的选择效率。 相似文献
16.
用 D_2与19个中高杆小麦亲本杂交 F_1代研究表明:D_2对中高杆亲本有普遍的 F_1代致矮能力,其致矮力随高亲株高增加而增强。D_2对高亲株高的致矮力主要表现在下部三个节间,上部两节间缩短较少,故可提高 F_1代的株高结构指数。D_2与矮变1号、大姆指矮 F_1致矮力表现顺序为:矮变1号>大姆指矮>D_2。将 D_2的 F_1代致矮性引入杂交小麦育种体系,可望恢复系株高在82.6±10.3cm 时,F_1代株高降低至70.7±6.1cm 的高产小麦株高区间。 相似文献
17.
CIMMYT小麦在中国春麦区的适应性分析 总被引:3,自引:1,他引:3
【目的】研究CIMMYT小麦在中国的适应性有助于提高春麦区的育种水平。【方法】10份CIMMYT代表性品种和15份中国春麦主栽品种于2001和2002年种植在中国春麦区的9个试点和CIMMYT的4种不同处理环境,分析产量、产量构成因子和农艺性状的变化趋势。【结果】CIMMYT品种穗数和穗粒数多,千粒重中等,具有广泛适应性,比中国品种具有更高的产量优势;黑龙江光敏感品种植株高、抽穗和成熟晚、穗数中等、穗粒数少、千粒重和产量低;中国其它品种株高中等、抽穗和成熟早、穗数少、穗粒数中等、千粒重高、产量中等。CIMMYT品种引种到中国后,株高降低,抽穗和成熟提早,并略减产;黑龙江光敏感品种在CIMMYT种植时株高增加,抽穗和成熟推迟,千粒重降低,并显著减产;中国其它品种在CIMMYT种植时株高增加、抽穗和成熟略推迟、千粒重变化较小,并略减产。【结论】CIMMYT品种可在云南、青海和新疆直接推广种植;内蒙古、甘肃和宁夏为其次适宜地区,可以直接推广应用,但主要用作杂交亲本;在黑龙江以作杂交亲本为宜。为提高引种效率,并考虑到性状的重复力大小,在CIMMYT为中国选种时应重点选择籽粒较大的材料。为云南所选材料可略矮、适当晚熟,内蒙古、甘肃、宁夏和新疆所选材料可略高、较早熟,青海所选材料可较高、熟期相当,黑龙江应主要选择高纬度材料、植株偏高且晚熟。 相似文献
18.
Genetic analysis and QTL mapping of a novel reduced height gene in common wheat(Triticum aestivum L.) 
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下载免费PDF全文 ZHOU Chun-yun XIONG Hong-chun LI Yu-ting GUO Hui-jun XIE Yong-dun ZHAO Lin-shu GU Jiayu ZHAO Shi-rong DING Yu-ping SONG Xi-yun LIU Lu-xiang 《农业科学学报》2020,19(7):1721-1730
Low stature in wheat is closely associated with lodging resistance, and this impacts harvest index and grain yield. The discovery of novel dwarfing or semi-dwarfing genes can have great significance for dwarf wheat breeding. In this study, we identified an EMS-induced dwarf wheat mutant JE0124 from the elite cultivar Jing411. JE0124 possesses increased stem strength and a 33% reduction in plant height compared with wild type. Gibberellic acid(GA) treatment analysis suggested that JE0124 was GA-sensitive. Analysis of the frequency distribution of plant height in four F2 populations derived from crosses between JE0124 and the relatively taller varieties Nongda 5181 and WT indicated that the dwarfism phenotype was quantitatively inherited. We used two F2 populations and 312 individuals from the reciprocal cross of Nongda 5181 and JE0124 to map the quantitative trait locus(QTL) for reduced height to a 0.85-cM interval on chromosome 2 DL. The mapping was done by using a combination of 660 K SNP array-based bulked segregant analysis(BSA) and genetic linkage analysis, with logarithm of odds(LOD) scores of 5.34 and 5.78, respectively. Additionally, this QTL accounted for 8.27–8.52% of the variation in the phenotype. The dwarf mutant JE0124 and the newly discovered dwarfing gene on chromosome 2 DL in this study will enrich genetic resources for dwarf wheat breeding. 相似文献
19.
选用4个冬小麦矮秆种质材料与5个生产上推广种植的高产小麦品种,采用4×5不完全双列杂交方法配制20个杂交组合,对亲本和杂交F1代株高的构成因素进行了遗传分析,结果表明:F1杂种优势普遍存在,穗下节长的优势最高。洛麦9851矮和西南05配合力较好,不仅后代株高降低,且改善了株高结构,是组配矮秆、大穗杂交组合较为理想的矮秆亲本;洛麦99045虽然降低了后代株高且改善了株高结构,但后代穗子较小;河北矮3后代基部节间增长,组合配制时不可用。杂交后代株高性状主要由加性基因决定,显性基因对其表现的影响是次要的。各性状遗传力较高,表明其后代变异受环境影响较小。 相似文献