碱胁迫对小麦(Triticum aestivum Linn)叶片代谢过程的影响

【目的】阐明碱胁迫对小麦叶片离子平衡、初生及次生代谢产物的影响及其涉及的代谢途径,讨论其生长代谢变化规律及应答机制。【方法】以普通小麦(Triticum aestivum Linn)为材料,采用盆栽试验利用Na HCO_3﹕Na2CO_3=1﹕1混合模拟不同盐度碱胁迫条件,在苗期连续胁迫12 d后测定叶片生长、光合、离子和代谢产物。【结果】当碱胁迫强度超过小麦自身调节能力时,叶片中Na^+含量剧增,加上高p H危害,造成叶绿体遭到破坏、叶绿素含量降低、光系统Ⅱ活性受抑制、气孔导度及碳同化能力急剧下降,最终导致生长率降低。碱胁迫下Na^+大量增加的同时阴离子明显减少,造成叶片内负电荷亏缺和p H不稳定,导致离子平衡遭到破坏,进而引起一系列代谢途径的协变反应。通过GC-MS检测出73个代谢物,主要包括碳水化合物、氨基酸、有机酸等,其中,分别有25和48个代谢物在中度和重度碱胁迫下发生明显改变。主成分分析(PCA)结果显示全部样本均分布在95%的置信区间内,2个主成分得分达到89%。单因素方差分析表明,与对照组比较,在高浓度碱胁迫下发生的显著性变化明显高于低浓度碱胁迫。碱胁迫导致5种参与三羧酸(TCA)循环和6种参与糖酵解途径的代谢物含量明显降低,且引起大部分氨基酸(谷氨酸、丙氨酸、γ-氨基丁酸、天冬氨酸等)和糖类及多元醇(果糖、蔗糖、塔罗糖、肌醇等)大量降低。与此同时,碱胁迫诱导小麦有机酸大量积累,随胁迫强度的增加而上升,这种现象可能是小麦被动的适应调节过程,主要用于维持离子平衡并调节p H浓度。【结论】碱胁迫引起了TCA循环、糖酵解途径、卡尔文循环、莽草酸途径、细胞膜脂代谢、转氨基反应和γ-氨基丁酸(GABA)途径等代谢网络系统广泛变化,暗示了碱胁迫不仅对糖类、氨基酸类、脂肪和蛋白质合成代谢过程造成负面影响,而且限制C-N转变过程影响植物对N素的利用,造成营养匮乏抑制植物生长发育。

Identification of Triticum aestivum-Haynaldia villosa Translocation Line T6BS·6BL-2VS

[Objective] The aim of experiment was to provide a new germplasm for wheat breeding by further using desirable genes in 2V chromosome of Haynaldia villosa.[Method] Through hybridization between common wheat(Triticum aestivum)-Haynaldia villosa disomic substitution line and common wheat Nonglin26-3C chromosome of Aegilops triuncialis disomic addition line,the analysis methods such as chromosome C-banding,genomic in situ hybridization and molecular marker technique were comprehensively applied and combined characters investigation.[Result] The wheat-Haynaldia villosa translocation line(T6BS·6BL-2VS)was selected from hybrid progenies to conduct characters investigation,which found some bristles on glume ridge of T6BS·6BL-2VS.[Conclusion] The translocation line induced by gametocidal chromosome was a small segment translocation line and the gene of bristle on glume ridge of Haynaldia villosa was located between the middle and the terminal of 2VS.

Effects of Four Culture Media on Callus Induction Rate of Wheat Anther

Effects of four culture media including MS, N6, C17 and K on wheat anther callus induction in vitro culture were studied. The results showed that the callus in- duction rate of four kinds of culture medium was in the order of K〉C17〉N6〉MS.

Wheat breeding in northern China: Achievements and technical advances

Common wheat is the major cereal crop that underpins the food safety of China. Both winter wheat and spring wheat are grown on ~24 million ha. This review aims to summarize the current status of wheat production and breeding progress in the northern wheat production areas of the country, and to review recently advanced technologies being applied in wheat breeding, including the use of dwarf-male-sterile(DMS) wheat, speed breeding and specialized wheat breeding SNP chips. Crossing is the initial step in most breeding programs. DMS wheat is a convenient tool for large scale production of hybrid seed. Speed breeding or accelerated generation turnover attempts to reduce the time taken in cultivar development. Several different SNP chips are high-throughput, genome-wide genotyping platforms for breeding and research.

Three co-located resistance genes confer resistance to leaf rust and stripe rust in wheat variety Borlaug 100

Leaf rust(LR) and stripe rust(YR) are important diseases in wheat producing areas worldwide and cause severe yield losses under favorable environmental conditions when susceptible varieties are grown. We determined the genetic basis of resistance to LR and YR in variety Borlaug 100 by developing and phenotyping a population of 198 F6 recombinant inbred lines derived from a cross with the susceptible parent Apav#1. LR and YR phenotyping were conducted for 4 and 3 seasons, respectively, at CIMMYT research stations in Mexico under artificial epidemics. Mendelian segregation analyses indicated that 3–5 LR and 2 YR genes conferred resistance in Borlaug 100. Lr46/Yr29(1 BL), Yr17(2 AS) and Yr30(3 BS) were present in the resistant parent and segregated in the RIL population based on characterization by molecular markers linked to these genes. When present alone, Lr46/Yr29 caused average 13% and 16% reductions in LR and YR severities, respectively, in RILs. Similarly, Yr17 and Yr30 reduced YR severities by 57% and 11%, respectively. The Yr30 and the Yr17 translocation were also associated with 27% and 14% reductions, respectively, in LR severity, indicating that the 3 BS and 2 AS chromosomal regions likely carry new slow rusting LR resistance genes, temporarily designated as Lr B1 and Lr B2, respectively. Additive effects of Yr30*Yr17, Yr29*Yr17 and Yr29*Yr30 on YR and LR were significant and reduced YR severities by 56%,55%, and 45%, respectively, and LR severities by 34%, 40%, and 45%, respectively. Furthermore, interaction between the three genes was also significant, with mean reductions of 70% for YR and 54% for LR severities. Borlaug 100, or any one of the 21 lines with variable agronomic traits but carrying all three colocated resistance loci, can be used as resistance sources in wheat breeding programs.

The wheat receptor-like cytoplasmic kinase TaRLCK1B is required for host immune response to the necrotrophic pathogen Rhizoctonia cerealis

Receptor-like cytoplasmic kinases(RLCKs)represent a large family of proteins in plants.In Arabidopsis and rice,several RLCKs in subfamily VII(RLCKs-VII)have been implicated in pathogen-associated molecular pattern-triggered immunity and basal resistance against bacterial and fungal pathogens.However,little is known about roles of RLCKs-VII of the important crop common wheat(Triticum aestivum)in immune responses.Here,we isolated a RLCK-VII-encoding gene from wheat,designated as TaRLCK1B,and investigated its role in host immune response to infection of a necrotrophic fungus Rhizoctonia cerealis that is a major pathogen of sharp eyespot,a destructive disease of wheat.RNA-sequencing and RT-qPCR analyses showed that transcriptional level of TaRLCK1B was significantly higher in sharp eyespot-resistant wheat cultivars than in susceptible wheat cultivars.The gene transcription was rapidly and markedly elevated in the resistant wheat cultivars by R.cerealis infection.The TaRLCK1B protein was closely related to OsRLCK176,a rice resistance-related RLCKs-VII,with 84.03%identity.Virus-induced gene silencing plus wheat response to R.cerealis assay results indicated that silencing of TaRLCK1 impaired resistance to R.cerealis.Meantime,silencing of TaRLCK1 significantly elevated both the content of H2 O2(a major kind of reactive oxygen species,ROS)and the transcriptional level of the ROS-generating enzyme-encoding gene RBOH,but repressed the expression of the ROS-scavenging enzyme-encoding gene CAT1 at 18 hours after inoculation(hai)with R.cerealis.Taken together,these data suggested that TaRLCK1B was required for the early immune response of wheat to R.cerealis through modulating ROS signaling in wheat.

The Application of Somaclonal Variation in Early Maturity,High Yield and High Quality Improvement in Wheat

Yield characters, maturity and grain protein content of somaclones derived both from immature embryo of cultivar 77(2)-Spring and single-cell culture of cultivar NE7742 in vitro were studied and the wide variation was found. Somaclones with maturity 8 days earlier than or the same as CK NE 7742 (high yield, early maturity and high quality), combining with high quality (grain protein content 15.5% - 18%) and high yield (the same as 7724 or higher) have been found and selected and now multiplied for 8 generations. The results of cultivar comparison trial in 1995 showed that several somaclones (the yields were significantly higher than CK DN120) could be used directly in wheat production. The studies confirmed that somaclonal variation is one of the effective ways for early maturity, high-yielding and high-quality improvement in wheat.

外源茉莉酸甲酯对BNS366雄性育性的影响

为探究外源茉莉酸甲酯(methyl jasmonate,MeJA)对小麦温敏雄性不育系BNS366雄性育性的影响,以BNS366及其近等基因系郑麦366为试验材料,在正常秋季播种(2020年10月12日)和晚播(2020年12月2日)条件下,分别于2021年3月22日和3月31日开始至开花期前,设置0(清水,对照)、50、100、200、300、400和500μmol·L^(-1) MeJA(水溶液,喷施)7个处理,比较分析了不同处理间花粉可育率和自交结实率的差异。结果表明:在正常秋季播种条件下,郑麦366花粉可育率、国内法自交结实率和国际法自交结实率分别为86.31%、70.36%和112.22%,在晚播条件下分别为82.53%、92.53%和166.18%,均正常可育;在正常秋季播种条件下,200μmol·L^(-1) MeJA处理的国际法自交结实率为70.15%,比对照显著降低了42.07个百分点;在晚播条件下,200、300和500μmol·L^(-1) MeJA处理的国内法自交结实率分别为74.71%、74.01%和73.45%,比对照显著降低了17.82、18.52和19.08个百分点;在两个播期下,郑麦366其他浓度MeJA处理的上述3个指标与对照差异均不显著。在正常秋季播种条件下,BNS366花粉可育率为零,达到全不育水平,国内法自交结实率和国际法自交结实率均为0.24%,100μmol·L^(-1) MeJA处理的花粉可育率为88.25%,达到正常可育水平,国内法自交结实率和国际法自交结实率分别为56.41%和94.01%,能正常结实,与对照差异达到显著水平;在晚播条件下,BNS366的上述3个指标分别为51.72%、41.23%和93.08%,正常可育,100μmol·L^(-1) MeJA处理的国际法自交结实率为39.72%,比对照显著降低了53.36个百分点;在两个播期下,BNS366其他浓度MeJA处理的上述3个指标与对照差异均不显著。由此说明,在2020-2021年,外源MeJA对郑麦366和BNS366可育植株的雄性育性可能具有降低效应,对BNS366不育植株的雄性不育性具有较强恢复效应。

不同类型专用小麦叶、茎、粒可溶性糖变化与淀粉含量的关系

比较了3种类型专用小麦(强筋小麦郑麦9023、中筋小麦温麦4号和弱筋小麦豫麦50)在籽粒灌浆过程中旗叶、倒一茎节、倒二三茎节、倒四五节茎节、叶鞘中可溶性总糖和蔗糖含量及籽粒中可溶性总糖、淀粉含量的变化。结果表明,在灌浆过程中,中筋小麦温麦4号和弱筋小麦豫麦50旗叶中可溶性总糖、蔗糖、SS和SPS活性均高于强筋小麦郑麦9023,温麦4号略高于豫麦50。SS和SPS活性峰值出现时间早于可溶性总糖和蔗糖。在花后12d至成熟期间,豫麦50籽粒中可溶性总糖含量最高,温麦4号次之,郑麦9023最低;豫麦50淀粉含量显著高于温麦4号和郑麦9023,灌浆后期的ADPP活性也高于温麦4号和郑麦9023。相关分析表明,开花后18d至成熟期茎中可溶性总糖含量与籽粒淀粉含量之间呈极显著负相关,而叶片中可溶性总糖、叶片中蔗糖、籽粒中可溶性总糖与籽粒淀粉积累速率呈显著或极显著正相关。茎鞘可溶性总糖含量对籽粒淀粉的贡献率存在基因型差异:豫麦50和郑麦9023以倒二、三节间最大,而温麦4号则以倒四、五节间最大。

中国冬小麦puroindoline类型分布及其对溶剂保持力的影响

以中国4个冬麦区的244份小麦品种(系)为材料,对籽粒硬度、面粉颗粒度大小、puroindoline等位变异类型和溶剂保持力进行了研究。结果表明,中国冬小麦中有5种puroindoline类型,分别为Pina-D1a/Pinb-D1a(野生型)、Pina-D1b/Pinb-D1a、Pina-D1a/Pinb-D1b、Pina-D1a/Pinb-D1d和Pina-D1a/Pinb-D1p。Pina-D1a/Pinb-D1p为新变异类型,目前仅在我国品种(系)中发现。硬质麦中以Pina-D1a/Pinb-D1b类型最为广泛,占硬质麦的81.2%,Pina-D1b/Pinb-D1a、Pina-D1a/Pinb-D1d和新类型Pina-D1a/Pinb-D1p分别占硬麦的9.7%、1.2%和7.9%。籽粒硬度及面粉颗粒大小与4种溶剂保持力之间的相关均达1%显著水平,其中以水溶剂保持力与硬度之间的关系最为密切,与SKCS和NIR硬度值之间的相关系数分别为0.73和0.64。Pina-D1b/Pinb-D1a类型的水溶剂保持力和碳酸钠溶剂保持力平均值最大,分别为68.1和85.8,均与Pina-D1a/Pinb-D1b类型之间差异达5%显著水平。同时,各个麦区间的硬度值和溶剂保持力也有所不同,其中北部冬麦区和西南冬麦区的水溶剂保持力间及北部冬麦区和长江中下游冬麦区的碳酸钠溶剂保持力间差异也达到了5%显著水平。这为改进我国小麦籽粒硬度及将溶剂保持力用于早代选择提供了理论基础。

小麦粉面团稳定时间的变化及其稳定性分析

小麦的面团稳定时间是判别小麦品种类别及其用途的重要指标。本研究针对生产上小麦面团稳定时间变化很大的问题,选用山东省主要推广的12个优质小麦品种(系)为材料,在9个不同的试点上,连续3年进行了面团稳定时间变异及其稳定性分析试验。结果表明,不同品种、不同年份和地点间面团稳定时间的变异系数为24.29～49.60。利用主效可加互作可乘模型(AMMI)对面团稳定时间进行稳定性分析得知,面团稳定时间存在显著的品种和地点间的互作效应,其中品种的固定效应导致的变异最大,品种和地点互作次之,地点(含重复)效应较小。但不同品种与不同试点的交互作用不同,每个品种(系)对试点都有其特殊的适应性。因此,在优质专用小麦产业化种植时,要获得面团稳定时间达到标准的商品粮食,即要选准适宜的品种又要注意适宜的种植区域。

小麦中国春背景下长穗偃麦草光合作用相关基因的染色体定位

光合作用与小麦产量关系的研究倍受国内外学者关注,而以代换系为材料研究外源染色体对光合作用的效应至今未见报道。笔者以小麦-长穗偃麦草二体代换系为材料,以旗叶为主要测定叶位,用美国CID公司生产的CI-310便携式光合作用测定系统于田间测定旗叶光合速率在各生育期变化,并测定其与产量构成因素间的相关性。结果表明,DS2Ee(2A)代换系在开花期具有在整个生育期最高的光合速率,2Ee染色体可在穗粒数性状的改良过程中加以利用。DS4Ee(4A、4B、4D)代换系其旗叶从抽穗期到灌浆期始终保持较高水平净光合速率,对籽粒形成和充实十分有利,4Ee染色体可在通过改良灌浆时光合速率来提高千粒重等产量指标的研究中加以利用。

花后干旱和渍水下氮素供应对小麦籽粒蛋白质和淀粉积聚关键调控酶活性的影响

防雨池栽条件下,设置渍水、干旱和对照3个水分处理,每个水分处理下再设置2个施氮水平,研究了花后渍水和干旱逆境下氮素对两个籽粒蛋白质含量不同的小麦(TriticumaestivumL.)品种籽粒蛋白质和淀粉积聚关键调控酶活性的影响。研究结果表明,与对照相比,花后干旱和渍水均降低旗叶谷氨酰胺合成酶(GS)和谷丙转氨酶(GPT)活性,但水分逆境下增施氮肥可以提高旗叶磷酸蔗糖合成酶(SPS)、GS和GPT活性。灌浆期籽粒-蔗糖合成酶(SS)、可溶性淀粉合成酶(SSS)、结合态淀粉合成酶(GBSS)、GS和GPT活性均呈下降趋势,水分逆境下小麦籽粒SS和GS活性降低,干旱提高GPT活性,而渍水使其降低。土壤水分适宜或亏缺条件下增施氮肥可以提高籽粒SS活性,而渍水下增施氮肥降低SS活性。干旱和渍水下增施氮肥可以提高籽粒SSS、GBSS、GS和GPT活性。干旱处理提高直链淀粉积累速率和蛋白质含量,而渍水使其降低。土壤干旱和渍水下增施氮肥降低直链淀粉和支链淀粉积累速率,提高了蛋白质含量,且适宜水分或亏缺条件下增施氮肥可以提高蛋白质积累量,而渍水下增施氮肥不利于蛋白质积累。

灌浆期高温对小麦剑叶抗氧化酶及膜脂过氧化的影响

采用人工气候室控温,研究弱筋小麦扬麦9号和中筋小麦扬麦12在灌浆最快时期(花后19～21d)、温度(25℃、30℃、35℃、40℃)、大气相对湿度50%的条件下,对剑叶抗氧化酶及膜脂过氧化的影响。结果表明,随着温度升高,剑叶超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性呈下降趋势,膜脂过氧化产物(MDA)含量呈上升趋势。高温胁迫对中筋小麦扬麦12SOD、CAT活性的伤害大于弱筋小麦扬麦9号,对扬麦9号POD活性的伤害大于扬麦12,扬麦12MDA积累速率大于扬麦9号。高温胁迫导致千粒重下降。

BNS小麦的雄性不育性及其温光特性

【目的】研究BNS育性及其温光特性,探寻育性转换规律,确定其应用价值。【方法】以BNS和百农矮抗58为试材,进行秋季分期播种和春季播种试验,测定不同播期的育性及其日均温度、日照长度的动态变化和温光效应。【结果】(1)BNS小麦雄性不育系的麦穗蓬松,颖壳开张,有透明感;花药干瘪瘦小、不外挂,无或有极少量无活力的花粉,呈圆败型败育;自交不结实,且不育性能稳定遗传;国内、国际法人工饱和授粉结实率79.64%～87.22%、89.89%～102.10%,雌蕊活性正常。(2)BNS温度敏感期为小花原基分化期至雌雄蕊分化期,温度7.4～11.4℃,不育度97.57%～100%(10月17日前播种),高于11.4℃时,育性发生转换,自交结实率随播期的延迟呈现由低(7.71%、9.41%)渐高(70.15%、102.50%)的趋势,不育度则反之;雄性不育性与温度相关密切r=-0.578～-0.866>r0.05/0.01=0.532/0.661;春播BNS的同期温度为15.9℃,自交结实率与对照品种相近,表现正常可育。(3)BNS育性转换时期的自交结实大都集中于麦穗基部、中部,上部几乎不实,与主茎穗比,下落穗易结实,不育性较低。(4)BNS育性变化与光照长度因播期和抽穗前时段的不同表现有所差异,但未有明显的规律。【结论】BNS是光照辅助的温敏型小麦雄性不育系,具有低温不育高温可育的特性。在当地能秋播制种和春播繁殖种子。

分子标记辅助选育兼抗白粉病、条锈病、黄矮病小麦新种质

选育和推广多抗、兼抗型小麦品种是今后小麦育种发展方向之一。本研究通过复合杂交、回交,将抗白粉病基因聚合体Pm4+Pm13+PmV、抗条锈病基因YrX(源自YW243)、抗黄矮病基因Bdv2向优异农艺亲本转育。利用抗病性鉴定和分子标记辅助选择,选育出聚合了3～5个抗病基因的兼抗白粉、条锈和黄矮病的冬性小麦新种质和春性小麦新种质,其中聚合Pm4+Pm13+PmV+YrX+Bdv2等5个抗病基因的冬性材料1株,聚合Pm4+Pm13+YrX+Bdv2d的冬性、春性(BC2F3)材料分别为2株、3株,聚合Pm4+PmV+YrX+Bdv2等4个抗病基因的冬性、春性(BC2F3)材料分别为6株和18株,聚合Pm13+YrX+Bdv2、PmV+YrX+Bdv2等3个抗病基因的春性材料分别为7株和46株。本研究可为小麦多抗、兼抗育种提供遗传组成明确的丰富抗源和快捷的选择方法。

普通小麦多酚氧化酶活性的QTL分析

多酚氧化酶 (polyphenoloxidase ,PPO)是引起面团 (片 )颜色褐变的主要原因。利用 12 2对SSR引物、4对贮藏蛋白STS引物和 10对AFLP引物组合 ,分析了中优 95 0 7×CA96 32的 71个DH系的基因型 ,构建了由 173个位点组成的遗传连锁图 ,在小麦 2 1个连锁群上覆盖 2 881cM。将该群体种植于 3个环境 ,采用复合区间作图法 (CIM)进行了PPO活性的QTL分析。结果表明 ,控制籽粒PPO活性的主效QTL有 2个 ,分别位于染色体 2AL和 2DL上 ,贡献率分别为 37 9%～5 0 0 %和 2 5 0 %～ 2 9 1%。所有QTL都来自高PPO活性亲本中优 95 0 7。讨论了通过遗传途径降低PPO活性及利用分子标记辅助育种的可能性。

中国小麦育成品种和农家种中慢锈基因Lr34/Yr18的分子检测

Lr34/Yr18是重要的慢叶锈和慢条锈基因,携带该连锁基因的小麦品种被广泛种植于世界许多国家。利用STS标记csLV34对慢叶锈和慢条锈基因Lr34/Yr18进行分子检测的结果表明,我国231份育成品种(系)中仅有14份材料携带Lr34/Yr18基因,占6.1%。不同麦区分布频率不同,其中北部冬麦区为零,黄淮冬麦区、长江中下游冬麦区、西南冬麦区和西北春麦区分别为3.0%、21.4%、16.7%和33.3%。在422份农家种中,359份含有Lr34/Yr18基因,占85.1%。Lr34/Yr18基因在不同麦区的分布频率也存在差异,北部冬麦区、黄淮冬麦区、长江中下游冬麦区、西南冬麦区、南部冬麦区和西北春麦区分别为89.6%、77.4%、93.1%、93.8%、96.6%和61.1%。csLV34标记扩增产物为150bp和229bp的片段,能有效鉴别品种是否携带Lr34/Yr18基因,是一个重复性好、准确率高的分子标记,可用于小麦Lr34/Yr18基因的鉴定与选择。

强筋小麦胚乳淀粉粒度分布特征及其对弱光的响应

【目的】揭示强筋小麦淀粉粒度分布特征,探讨小麦挑旗后不同阶段弱光对其胚乳淀粉粒度分布特征的影响。【方法】利用自制遮荫棚设挑旗-开花、花后1～10d、花后11～20d、花后21～30d弱光处理,以大田种植小麦为对照,对2个强筋小麦品种(藁城8901和济南17)在不同弱光处理下胚乳中淀粉粒的数目、体积和表面积分布进行分析测定。【结果】小麦胚乳不同粒径淀粉粒数目分布呈单峰曲线变化,体积和表面积分布均呈双峰曲线变化。B型淀粉粒(直径<10μm)占胚乳淀粉粒数目、体积和表面积的百分数分别为99.89%、46.85%和84.43%,A型淀粉粒(直径≥10μm)的值分别为0.11%、53.15%和15.57%。挑旗后不同阶段弱光处理对小麦胚乳淀粉粒的数目、体积和表面积分布均有明显影响。花后11～20d弱光处理时A型淀粉粒的数目百分数显著降低,其它处理变化不明显;弱光对B型淀粉粒内部的数目分布状况影响显著,且此影响存在遮光时期、基因型和粒位的差异。挑旗～开花弱光处理后,藁城8901强势粒BS型(直径<1μm)淀粉粒数目降低,BL型(直径1～10μm)淀粉粒升高,而弱势粒呈相反趋势;济南17强势粒的淀粉粒数目分布变化不显著,而弱势粒BS型淀粉粒数目降低,BL型淀粉粒升高。灌浆前期弱光处理提高小麦胚乳中BS型淀粉粒数目,中后期弱光处理提高BL型淀粉粒数目,且中期弱光处理的作用大于后期。2个品种B型淀粉粒的体积和表面积在灌浆前期弱光处理后显著提高,而A型淀粉粒的体积和表面积降低;挑旗～开花和灌浆中后期弱光处理后,A和B型淀粉粒的体积和表面积变化呈现与灌浆前期相反的趋势。【结论】强筋小麦胚乳淀粉粒数目分布呈单峰曲线变化,体积和表面积分布呈双峰曲线变化。弱光对强筋小麦胚乳淀粉粒度分布存在显著影响。

利用分子标记解析小麦新种质YW243的抗锈病基因

【目的】对兼抗条锈病、秆锈病、叶锈病、黄矮病、白粉病等5种病害的小麦新种质YW243中抗锈病基因的组成和来源进行解析。【方法】通过系谱推断,利用了抗条锈病基因Yr9、YrX、Yr2、Yr1以及抗秆锈病基因Sr31的特异PCR标记和醇溶蛋白蛋白质电泳图谱,分析YW243及其部分相关亲本材料丰抗8号、丰抗13、陕7859中相关的抗条锈病基因和抗秆锈病基因的有无,解析YW243中抗锈病基因的组成。【结果】YW243含有抗条锈病基因Yr1、Yr2、Yr9、YrX,抗秆锈病基因Sr31、抗叶锈病基因Lr26。Yr1源于亲本陕7859或丰抗13,Yr2源于陕7859或丰抗8号或丰抗13;YrX源于丰抗13;Yr9、Sr31和Lr26源于陕7859或丰抗8号中。【结论】解析了YW243中抗条锈病基因和抗秆锈病基因的组成,证明YW243是一个含有Yr1、Yr2、Yr9、YrX、Sr31等抗锈病基因的多基因聚合体,这些基因特异的SSR,STS特异标记可用于检测多基因聚合体YW243中目标基因,为在抗锈育种中利用、选择YW243的抗锈基因提供了快捷方法。