Quantitative Trait Loci for Mercury Tolerance in Rice Seedlings

Mercury （Hg） is one of the most toxic heavy metals to living organisms and its conspicuous effect is the inhibition of root growth. However, little is known about the molecular genetic basis for root growth under excess Hg2＋ stress. To map quantitative trait loci （QTLs） in rice for Hg2＋ tolerance, a population of 120 recombinant inbred lines derived from a cross between two japonica cultivars Yuefu and IRAT109 was grown in 0.5 mmol/L CaCI2 solution. Relative root length （RRL）, percentage of the seminal root length in ＋HgCI2 to -HgCI2, was used for assessing Hg2＋ tolerance. In a dose-response experiment, Yuefu had a higher RRL than IRAT109 and showed the most significant difference at the Hg2＋ concentration of 1.5 tJmol/L. Three putative QTLs for RRL were detected on chromosomes 1, 2 and 5, and totally explained about 35.7% of the phenotypic variance in Hg2＋ tolerance. The identified QTLs for RRL might be useful for improving Hg2＋ tolerance of rice by molecular marker-assisted selection.

大豆根区逆境耐性的种质鉴定及其与根系性状的关系

依根系类型从黄淮海和长江中下游地区301份代表性材料中选取62份,以株高、叶龄、地上部干物重、地下部干物重为指标,采用平均隶属函数值方法鉴定了苗期耐旱性、苗期耐铝毒性,加上主茎节数、分枝数、单株荚数、单株粒数、百粒重等性状鉴定了后期耐旱性,并通过钒钼黄比色法测定植株P含量鉴定了苗期耐低磷性。筛选出1级苗期耐旱材料4份、后期耐旱材料6份、前后期均耐旱材料2份,苗期耐铝毒材料7份、耐低磷材料3份、同时具有铝毒和低磷耐性的材料3份。相关分析表明,耐旱平均隶属函数值与根干重、根总长和根体积的相对值均呈极显著相关;耐铝毒平均隶属函数值与一级侧根数、主根长、总根长、根体积、根干重的相对值均呈极显著相关;未发现与耐低磷相关的根系性状。

大豆品种苗期根系性状的遗传变异及其与耐逆境胁迫的关系

从301份黄淮海和长江中下游地区代表性大豆地方品种和育成品种(系)中按根系类型选取62份,用以研究不同生态区大豆苗期根系性状的遗传特点、与地上部性状的相关以及与逆境胁迫的关系。大豆苗期一级侧根数、主根长、根干重、总根长和根体积等性状,在品种间、各苗龄间均存在显著遗传变异。不同生态区间生长进度不同,长江中下游晚熟品种的根干重、总根长、根体积发育速度较快,而北方早熟品种的根系发育较慢。根系性状与整株干重呈高度相关;根干重、根总长和根体积的相对值与耐旱平均隶属函数值,一级侧根数、主根长、总根长、根体积、根干重的相对值与耐铝毒平均隶属函数值呈极显著相关,且根系性状的相对值在品种间存在显著变异,可用做耐逆性选择的根系指标。黄淮海区品种的耐旱相关根系性状值高于长江中下游区品种,表明耐旱种质的相关根系性状具有生态适应性。

黄淮海地区大豆品种苗期根系性状的遗传变异及与耐逆境胁迫的关系

从83份黄淮海地区代表性大豆地方品种和育成品种(系)中按根系类型选取32份,用以研究苗期根系性状的遗传特点、与地上部性状的相关以及与逆境胁迫的关系。大豆苗期一级侧根数、主根长、根干质量、总根长和根体积等性状,在品种间、各苗龄间均存在显著遗传变异;根系性状与整株干质量呈高度相关;根干质量、根总长和根体积的相对值与耐旱平均隶属函数值,一级侧根数、主根长、总根长、根体积、根干质量的相对值与耐铝毒平均隶属函数值呈极显著相关,且根系性状的相对值在品种间存在显著变异,可用做耐逆性选择的根系指标。

水稻耐低温逆境研究:分子生理机制及育种展望

低温严重影响水稻的地理分布、生长发育及产量。水稻在低温逆境下会产生一系列的生理及代谢变化,如:叶绿素荧光的改变,电解质渗漏增加,活性氧、丙二醛、蔗糖、脂质过氧化物、脯氨酸等代谢物含量升高,植物内源激素ABA和GA的改变等。了解水稻在低温逆境下的生理代谢变化及低温应答分子机理对水稻耐低温性状的遗传改良具有重要的意义。本文系统总结了水稻在低温逆境下的生理代谢变化、已定位和克隆的耐低温基因/QTL,以及水稻应答低温逆境信号转导机制的最新研究进展,以期为水稻的耐低温育种提供参考。

低磷胁迫下陆地棉苗期根生物量相关性状全基因组关联分析

磷(phosphorus,P)是植物生长发育所必须的营养元素,低磷胁迫是制约棉花生长发育的重要因素之一。本研究以419份陆地棉核心种质为材料,对低磷胁迫下2个环境6个根生物量相关性状进行表型鉴定,基于366万个SNPs(single nucleotide polymorphisms)进行全基因组关联分析(genome-wide association study,GWAS),筛选显著关联的SNPs位点并挖掘候选基因。结果表明,低磷胁迫下棉花根生物量性状具有广泛的遗传变异,其中根冠比(root shoot ratio,RSR)的变异系数最大(45.30%)。在2个环境下共检测到393个与根生物量性状显著关联的SNPs,这些位点主要分布于D02(75个)、A08(64个)和A07(35个)染色体,其中28个SNPs在至少2个性状或环境中同时检测到。进一步筛选到13个候选基因,其中Gh_A08G1889在E1环境中低磷条件下的根冠比(LP-RSR-E1)中检测到,A08:99606874(A/C)位于该基因外显子中并导致了非同义突变(Val/Leu),且该基因编码赤霉素响应蛋白GID1C(Gibberellin receptor GID1C),有报道称该基因与DELLA蛋白相互作用参与赤霉素调节途径,控制植物根部生长发育并响应环境胁迫;Gh_D08G2527在E2环境中低磷条件下的地下部干重和总干重(root dry weight,RDW;total dry weight,TDW;LP-RDW-E2和LP-TDW-E2)中共同检测到,该基因编码的DREB3(Dehydration-responsive element-binding protein 3)类转录因子在多种作物中参与了环境胁迫的响应过程,且DREB可特异性的与DRE结合,诱导环境胁迫响应基因的表达进而使植株产生抗逆性。qRT-PCR结果显示,低磷处理后Gh_D08G2527的表达量在耐低磷品种中显著高于低磷敏感品种。本研究结果为深入了解棉花耐低磷胁迫的分子机制提供了理论参考及基因资源。

Effects of water and nitrogen on growth and relative competitive ability of introduced versus native C_(4)grass species in the semi-arid Loess Plateau of China

Switchgrass is an introduced C_(4)grass in the semi-arid Loess Plateau of China,but there is a lack of information to assess its ecological invasive risk.In this study,Old World bluestems(native C_(4)grass)and switchgrass were sowed at five mixture ratios(8:0,6:2,4:4,2:6 and 0:8)under two soil water levels(80%field capacity(FC)and 40%FC)and two nitrogen(N)treatments(0 and 100 mg N/kg dry soil,termed N0-unfertilized and N1-fertilized treatments,respectively)in a pot experiment in 2012.Biomass,root morphological traits and relative competitive abilities of these two species were analyzed.Results showed that biomass of both species was significantly greater under 80%FC or N fertilization,and switchgrass had a relatively larger root:shoot ratio(RSR).Total root length(TRL)and root surface area(RSA)of switchgrass were significantly higher under 80%FC irrespective of N treatment,while those of Old World bluestems were only significantly higher under N fertilization.N had no significant effect on TRL and RSA of switchgrass,while RSA of Old World bluestems significantly increased under 80%FC and N fertilization.Under 40%FC and N0-unfertilized treatment,the aggressivity of Old World bluestems was larger than zero at 2:6 and 4:4 mixture ratios of two species,whereas it was close to zero at 6:2 mixture ratio.Root competitive ability of switchgrass significantly increased under 80%FC or N fertilization.The aggressivity of Old World bluestems was negative at 6:2 mixture ratio under 80%FC and N fertilization,while it was positive at 2:6 mixture ratio.Switchgrass may become more aggressive when N deposition or rainfall increases,while a proper mixture ratio with appropriate water and N management could help with grassland management in the semi-arid Loess Plateau.

不同来源糜子种质资源鉴定与利用

对外引42份糜子种质资源进行生育性状、产量性状和抗逆性鉴定,两年的种植观察结果表明,该批材料生态类型丰富,优异性状较多,共鉴定筛选出高产、优质、综合性状好的材料6份,具有特殊性状的优异材料4份,其中超大粒材料3份,超高蛋白含量材料1份;粮饲兼用型材料2份。为张家口地区在糜子生产和育种研究中有目的地利用这些资源提供了参考。

小麦硒强化研究进展

对小麦进行硒强化是解决国民普遍缺硒的有效方法。结合国内外对小麦硒强化的研究工作,综述了硒强化对小麦籽粒相关性状、脱氧雪腐镰刀菌烯醇(DON)毒素积累和氮素累积效率的影响以及硒耐性主效数量性状位点(QTL)定位等方面的工作,并对小麦硒强化的前景和策略进行了展望。

海马齿根系响应盐胁迫的转录组分析

【目的】对盐胁迫下海马齿根系进行转录组测序分析,挖掘海马齿根系耐盐相关基因,为揭示海马齿耐盐的分子机制提供参考。【方法】利用Illumina测序技术对0 mmol/L NaCl(对照组)和400 mmol/L NaCl胁迫处理(盐胁迫处理组)下的海马齿根系进行转录组测序分析,从中筛选出差异表达基因,选取13个基因进行实时荧光定量PCR(qRTPCR)检测,以验证转录组数据的可靠性。【结果】在海马齿根系转录组中共鉴定出305145个转录本,平均长度为622 bp,其中,对照组有146177个长度>300 bp的转录本,盐胁迫处理组有72173个长度>300 bp的转录本;共有65535条Unigenes在Nr、GO、Swiss-Prot、COG和KEGG五大数据库注释成功,占Unigenes总数的52.36%。对照组和盐胁迫处理组共有65535个差异Unigenes,其中,有182个热休克蛋白基因。对照组和盐胁迫处理组间共有24042个差异表达基因,从中选取13个基因进行qRT-PCR检测,结果显示,9个基因表达上调,其余4个基因表达下调,与转录组测序结果一致。24042个差异表达基因中,共有10106个显著差异基因富集到129条代谢通路,其中富集程度排名前10的代谢途径为核糖体、次级代谢生物合成、RNA转运、内吞作用、剪接体、甘油磷脂代谢、内质网加工、吞噬、醚脂类代谢和植物-病原体相互作用,参与盐胁迫相关的硫代谢、脯氨酸积累、活性氧(ROS)代谢、与盐胁迫相关的钙信号通路和过氧化氢代谢等途径的差异基因上调。【结论】在盐胁迫下海马齿差异表达基因如小分子量热激蛋白基因、抗氧化酶相关基因及与离子交换相关基因发挥了重要调控作用。