水稻籼粳交DH群体苗期耐冷性基因的分子标记定位

水稻苗期低温冷害导致的烂秧现象是水稻生产中重要的限制因素之一。以一个水稻籼粳交(圭630／02428)DH群体为材料,在幼苗3叶1心时用10℃低温处理3d,随后恢复培养,以恢复培养5d后的秧苗成活率(％)为指标,鉴定该DH群体的苗期耐冷性。利用已构建的RFLP连锁图谱和基于混合线性模型的定位软件QTLMapper1.0对水稻苗期耐冷性进行QTL分析,检测到控制水稻苗期耐冷性的3个QTLs,分别位于第3、11、12染色体上,贡献率分别为7．9％、18．3％和24.4％,其增效等位基因均来自于亲本“02428”。同时检测到控制水稻苗期耐冷性的上位性互作位点8个,分散分布于第2、7、8、9、11染色体上,其中有2对互作的贡献率在15％左右,这2对互作的增效基因型均为来自2个亲本的重组基因型。苗期耐冷性在2个亲本间差异很大,在DH群体中呈现出连续变异,有明显的超亲分离。这些结果表明,水稻苗期耐冷性是受多基因控制的数量性状,基因的上位性互作是其重要的遗传基础之一。     

用渗透剂胁迫鉴定谷子芽期耐旱性的方法研究

采用PEG-6000、甘露醇2种渗透剂7种渗透势模拟水分胁迫,以谷子芽期发芽率、芽长、根长的相对值作为鉴定评价指标,研究谷子芽期耐旱性鉴定的水分胁迫条件。结果表明：在胁迫强度较弱时,40％谷子品种萌发、80％谷子品种胚芽、胚根的生长表现促进作用;在胁迫强度较强时,表现出抑制作用。在PEG-6000、甘露醇胁迫下,萌发耐旱指数与种子千粒重呈负相关。与相对发芽势主要表现为中度正相关,与相对根／芽比主要表现为负相关（PEG-6000胁迫）,与相对芽长、相对根长相关系数很小;相对芽长与相对根长的相关关系主要表现为中度正相关。种子萌发耐旱指数与相对根长两个指标宜作为谷子芽期耐旱性鉴定指标,-0.75MPa PEG-6000、-1.00MPa甘露醇处理可以作为谷子芽期耐旱性鉴定的水分胁迫条件。     

淹水和干旱条件下水稻根系形成的QTLs及候选基因分析

为了研究不同水分条件下组成型根系性状和适应性根系性状的遗传机制,利用由IR64／Azucena发展的双单倍体（DH）群体分析了淹水和干旱条件下水稻幼苗种子根长（SRL）、不定根数（ARN）、总根干重（RW）及其对应的相对参数（干旱和淹水条件下根系性状的比值）的QTLs。淹水与干旱条件下检测到一个共同的种子根长QTL和一个共同的总根干重QTL。同时对前人发表的遗传群体定位的根系性状QTLs进行比较分析,检测到几个共同的根系性状QTLs。对与细胞伸长、分裂相关的候选基因进行了定位,其中4个细胞壁相关的ESTs（OsEXP2,OsEXP4,EXT和Xet）被定位在与不同水分条件下检测出的根系性状QTLs的相同区间。     

用渗透剂胁迫鉴定谷子芽期耐旱性的方法研究

采用PEG-6000、甘露醇2种渗透剂7种渗透势模拟水分胁迫,以谷子芽期发芽率、芽长、根长的相对值作为鉴定评价指标,研究谷子芽期耐旱性鉴定的水分胁迫条件.结果表明在胁迫强度较弱时,40%谷子品种萌发、80%谷子品种胚芽、胚根的生长表现促进作用;在胁迫强度较强时,表现出抑制作用.在PEG-6000、甘露醇胁迫下,萌发耐旱指数与种子千粒重呈负相关,与相对发芽势主要表现为中度正相关,与相对根/芽比主要表现为负相关(PEG-6000胁迫),与相对芽长、相对根长相关系数很小;相对芽长与相对根长的相关关系主要表现为中度正相关.种子萌发耐旱指数与相对根长两个指标宜作为谷子芽期耐旱性鉴定指标,-0.75MPa PEG-6000、-1.00MPa甘露醇处理可以作为谷子芽期耐旱性鉴定的水分胁迫条件.     

不同浓度NaCl溶液对水稻不同品种(系)幼苗生长的影响

在清水和0.25%、0.5%的NaCl溶液中分别砂培38份水稻品种(系),测芽长、根长、鲜重和干重,计算芽长敏感指数、根长敏感指数、鲜重敏感指数、干重敏感指数,研究水稻的耐盐性.根据相关分析,主成分分析和聚类分析,选出6个主成分(即芽长因子,干重因子,根敏感因子,芽敏感因子,低盐胁迫、鲜重敏感因子),将全部品系分成5个类群并筛选出8个综合品质特性较好的材料(即滇榆3号A,Kyongsan 2,Talsung 18,Kwangyang7-1,Keng Chi Ju,Thou Bir,Ma Gu Tsaw,Tie Gau Tsan).     

水稻籽粒砷、铜、铁、汞、锌含量QTL挖掘及候选基因分析

水稻是关键的粮食作物,金属污染是影响水稻产量和品质的重要因素.挖掘与水稻籽粒金属含量积累相关的数量性状基因座(quantitative trait locus, QTL),并分析其候选基因,再通过遗传育种手段提高水稻耐金属离子胁迫的能力,可有效减少土壤金属污染所造成的损失.本研究以粳稻品种热研(Nekken)为母本,籼稻品种华占(HZ)为父本,杂交获得F1代后,连续自交多代,得到的120个重组自交系(recombination inbred line, RIL)群体为实验材料.在相同且适宜的条件下培养,常规管理,在成熟期对各株系水稻籽粒内的金属离子含量进行测定.利用该RIL群体构建遗传图谱,对水稻耐金属离子胁迫的QTL进行定位分析,结果共检测到9个水稻金属离子含量QTL.其中包含1个与Cu、Hg积累相关的多效QTL; 3个与As积累相关的QTLs; 2个与Fe积累相关的QTLs,其中一个的likelihood of odd(LOD)值高达5.53; 2个与Zn积累相关的QTLs,其中一个的LOD值高达7.29.对这些QTLs区间内与耐金属离子胁迫相关的候选基因进行定量分析发现, LOC_Os01g14440, LOC_Os01g18584, LOC_Os01g20160, LOC_Os04g34600这4个基因在双亲间的表达量差异显著,结合亲本对不同金属离子的浓度积累数据结果,本团队推测, LOC_Os01g14440, LOC_Os01g18584, LOC_Os01g20160的高表达可能会极大提高水稻对Zn离子胁迫的吸收和耐受能力,而LOC_Os04g34600的高表达可能增加水稻对Fe胁迫的吸收和耐受能力.通过本次QTL的挖掘和分析发现,这些基因与水稻籽粒的金属离子积累有关,可能会影响水稻耐金属离子胁迫的能力,为进一步培育和筛选耐金属离子胁迫的水稻品种创造了条件.     

水稻萌发耐淹性的遗传分析

水稻(Oryza sativa)萌发耐淹性受到复杂的网络调控, 其分子机制不同于苗期耐淹性的相关机制, 萌发耐淹性的强弱影响着直播稻的成苗率。通过对256份水稻核心种质的萌发耐淹性评估, 发现粳稻和籼稻之间的萌发耐淹性差异并不显著, 都存在广泛的遗传变异。利用以粳稻R0380为供体亲本, 籼稻RP2334为轮回亲本的170个高代回交自交系构建含146个分子标记的连锁图谱, 以低氧胚芽鞘长度为性状指标, 通过复合区间作图法检测到影响萌发耐淹性的4个QTLs(quantitative trait loci), 分别定位于第2(2个)、3(1个)和8号(1个)染色体。贡献率最大的QTL为qGS2.2, 其值为17.34%, 增效等位基因来自轮回亲本籼稻RP2334; 其余3个QTLs的增效等位基因均来自供体亲本粳稻R0380, 贡献率分别为12.86%、9.37%和14.60%。     

苗期水稻根部性状的QTL定位

耐旱是水稻抗逆研究中最重要的性状之一。利用水稻籼粳品种窄叶青8号（ZYQ8）和京系17（JX17）及其通过杂交F1代花药培养获得的127个单株组成的双单倍体分离群体（double haploid,DH)为材料,在营养液中培养10天后,对影响抗旱能力的根部几个主要性状进行了分析,发现最大根长（Maximum root Length,MRL)、根干重（Dry Root Weight,DRW)和根茎干重比（Root/Shoot Ratio of Dry Weight,RSR)3个性状在群体中变异较大,利用该群体建立的水稻分子遗传图谱,对上述3个水稻性状进行数量性状座位（Quantitative Trait Locus,QTL)的分析定位,结果表明,2／1／2个QTLs的亲本JX17等位基因分别控制着最大根长、根干重和茎士重比的表达,对表型变异的解释率分别为16．4％、17．0％、16．4％、10．4％和19．9％;2／1个QTLs的亲本ZYQ8等位基因分别控制着最大根长和根茎干重比的增加,表表型变异的解释率分别为19．6％、13．0％和13．2％。检测到的8个QTLs分别位地水稻的染色体2、3、4、5、6、9和10上。与其他已发表的定位结果比较表现,在3个性状的总共8个QTLs中,各有1个性状的1个QTL（控制最大根长的L169－CT106A,控制根干重的G45－G1314A和控制根茎干重比的G62－G144）与早先报道的结果相吻合。     

水稻籽粒镉积累QTL定位及候选基因分析

水稻(Oryza sativa)是全世界重要的经济作物之一, 稻田镉(Cd)污染和镉积累问题严重威胁世界水稻的产量和品质以及人类健康, 如何降低水稻中镉积累已成为热点问题。以籼稻品种华占(HZ)为父本、粳稻品种热研2号(Nekken2)为母本, 连续自交多代后得到120个重组自交系群体, 对其镉积累进行检测和分析, 同时利用遗传图谱进行QTL作图。结果共检测到7个QTLs, 分别位于水稻第2、3、9和12号染色体上, 其中1个LOD值高达4.97。对这些QTL区间内与耐金属离子胁迫相关的候选基因进行定量分析, 发现LOC_Os02g50240、LOC_Os02g52780、LOC_Os09g31200、LOC_Os09g35030和LOC_Os09g37949这5个基因在双亲间的表达量差异显著, 结合亲本对不同金属离子的浓度积累数据, 推测LOC_ Os02g50240、LOC_Os09g31200及LOC_Os09g35030的高表达可能极大地提高了水稻对镉离子的吸收和胁迫耐受能力。通过QTL挖掘和分析, 发现这些基因与水稻籽粒的镉积累有关, 可能影响水稻耐镉胁迫的能力。研究结果为进一步筛选和培育耐镉胁迫的水稻品种创造了条件, 为阐明水稻镉积累的分子调控机制奠定了基础。     

基于水稻染色体片段代换系的耐盐发芽QTL分析

为了检测水稻种子的耐盐相关数量性状位点,也为耐盐遗传机理的研究提供理论基础,本实验以Koshihikari(受体)和Nona Bokra(供体)为亲本构建的全基因组单片段代换系(154个)作为研究群体,采用培养皿培养,在水稻种子的萌发期进行浓度为1％的盐胁迫,以种子的发芽情况为指标,统计发芽率数据,利用分子标记技术,定位分析水稻种子发芽率耐盐相关性状的QTL.结果显示:共检测到两个盐胁迫发芽相关QTL(qST9-1和qST11-1),其中,qST9-1定位于水稻9号染色体上M9-15引物附近,贡献率为6.94％;qST11-1定位于水稻11号染色体上M11-386引物附近,贡献率为6.86％.初步定位到两个水稻萌发期耐盐性QTL,该结果为进一步进行耐盐基因的精细定位、克隆及功能研究奠定基础,对挖掘耐盐水稻在盐渍化耕地的利用潜力,培育耐盐水稻品种以及耐盐遗传机理的研究具有重要意义.     

Identification of quantitative trait loci for cadmium tolerance and accumulation in wheat

Quantitative trait loci (QTL) for Cadmium (Cd) tolerance and accumulation in wheat (Triticum aestivum L.) were identified, using 103 recombinant inbred lines (RILs) derived from a cross of Ch × Sh at germination and seedling stages. The traits of germination, growth and physiology were measured. Cd tolerance indexes (TI) were calculated for plants under Cd stress relative to control conditions. Cd concentrations in both root and shoot were determined and the amount of Cd accumulation and translocation calculated. The phenotypic variation of the above traits showed a continuous distribution pattern among the RILs. Twenty-six QTLs were detected, (16 of which were designated for the traits under the control and Cd stress, 8 for Cd tolerance and 2 for root Cd accumulation). These 26 QTLs individually could explain 7.97–60.16% of the phenotypic variation. Fourteen QTLs were positive (with the additive effects coming from Ch) while the remaining 12 QTLs were negative (with the additive effects contributed by Sh). No QTL were detected in the same region on the chromosomes of wheat. The results indicated that genetic mechanisms controlling the traits of Cd tolerance were independent from each other. Therefore, in this study, the properties of Cd tolerance and accumulation showed to be independent traits in wheat.     

Quantitative trait loci controlling resistance to cadmium rhizotoxicity in two recombinant inbred populations of Arabidopsis thaliana are partially shared by those for hydrogen peroxide resistance

To understand mechanisms of cadmium (Cd) tolerance variation associated with root elongation in Arabidopsis thaliana , quantitative trait loci (QTLs) and epistasis were analyzed using relative root length (RRL: % of the root length in +Cd to −Cd) as a tolerant index. Using the composite interval mapping method, three major QTLs ( P < 0.05) were detected on chromosomes 2, 4 and 5 in the recombinant inbred population derived from a cross between Landsberg erecta (L er −0) and Columbia (Col-4). The highest logarithm of odds (LOD) of 5.6 was detected with the QTL on chromosome 5 (QTL5), which is linked to the genetic marker CDPK9 and explained about 26% of the Cd tolerance variation. There was no significant difference in Cd-translocation ratio from roots to shoots between tolerant and sensitive recombinant inbreed lines (RILs), while greater accumulations of reactive oxygen species were observed in the roots of sensitive RILs. This suggested that accumulation of ROS would explain Cd tolerance variation of the L er /Col RILs, which is mainly controlled by the QTL on chromosome 5. The QTL5 in L er /Col population was also detected as one of the major QTLs controlling tolerances to hydrogen peroxide and to copper, which is another ROS generating rhizotoxic metal. The same chromosomal position was detected as a common major QTL for Cd and hydrogen peroxide tolerances in a different recombinant inbreed (RI) population derived from a cross of Col- gl1 and Kashmir (Kas-1). These data, along with a multitraits QTL analysis in both sets of RILs, suggest that peroxide damage depends on the genotype at a major Cd-tolerant locus on the upper part of chromosome 5.     

OsIMA1增强水稻对镉逆境的适应性

铁(Fe)是植物生长发育所必需的营养元素而镉(Cd)是对植物有害的元素且对植物Fe和Cd的吸收存在拮抗作用。OsIMA是一类正调控水稻Fe吸收的一类小肽,其过表达可以促进Fe的积累。为探究OsIMA是否参与水稻对Cd胁迫的适应性,该研究以水稻为研究材料,利用荧光定量PCR分析了OsIMA基因的表达水平,通过遗传转化和CRISPR/Cas9基因编辑技术构建了OsIMA1过表达植物和ima1突变体植物,评估了OsIMA1过表达和突变体植物在Cd逆境条件下的株高,并利用电联耦合等离子体质谱法测量了根和地上部的Fe和Cd含量。结果表明:(1)Cd处理后,OsIMA1和OsIMA2的转录水平上调。(2)OsIMA1过表达植物比野生型植物对Cd胁迫更耐受。(3)ima1功能缺失突变体比野生型植物对Cd胁迫更敏感。(4)OsIMA1过表达植株根系的Cd含量较高,而ima1突变体植株地上部的Cd含量较高。综上所述,OsIMA1通过限制Cd从根向地上部的转运以增强水稻对Cd逆境的适应能力,该研究结果为定向培育耐Cd作物提供了理论参考。     

Variation in Cadmium Tolerance and Accumulation and Their Relationship in Wheat Recombinant Inbred Lines at Seedling Stage

In order to identify the variation of cadmium (Cd) tolerance and accumulation in wheat (Triticum aestivum L.), a study was conducted in hydroponic culture with or without Cd using recombinant inbred lines (RILs) consisting of 103 RILs derived from a cross of Chuan 35050 × Shannong 483 at seedling stage. The parameters of shoot height, secondary roots numbers, tiller numbers, shoot dry weights, root dry weights, and maximum efficiency of photosystem II photochemistry under dark-adopted conditions were measured. Cd-tolerant indexes were then calculated as relative the above traits under Cd stress to those under the control. Cd concentration in shoot or root was determined and Cd accumulation and translocation were calculated. Based on the Cd-tolerant indexes, membership function analysis was used to determine the variation of the above parameters. The results showed a continuous distribution among the RILs and then the RILs were divided into five groups according to their tolerance. Lines 76 and 17 were considered as the most Cd-tolerant lines while lines 103 and 51 were as the most Cd-sensitive lines. Meanwhile, lines 38 and 79 were with minimum Cd translocation ratio while lines 88 and 53 were with maximum Cd translocation ratio, respectively. The relationship between Cd tolerance and accumulation was not significant, indicating Cd tolerance and accumulation may be independent traits in the RILs. Thus, lines with high Cd tolerance and less Cd accumulation could be selected for wheat breeding.     

Identification and mapping of the QTL for aluminum tolerance introgressed from the new source, <Emphasis Type="SmallCaps">ORYZA RUFIPOGON</Emphasis> Griff., into indica rice (<Emphasis Type="Italic">Oryza sativa</Emphasis> L.)

This study was conducted to identify and map the quantitative trait locus (QTL) controlling Al tolerance in rice using molecular markers. A population of 171 F(6) recombinant inbred lines (RILs) derived from the cross of Oryza sativa (IR64), the Al susceptible parent, and Oryza rufipogon, the Al tolerant parent, was evaluated for Al tolerance using a nutrient solution with and without 40 ppm of active Al(+3). A genetic map, consisting of 151 molecular markers covering 1,755 cM with an average distance of 11.6 cM between loci, was constructed. Nine QTLs were dentified including one for root length under non-stress conditions (CRL), three for root length under Al stress (SRL) and five for relative root length (RRL). O. rufipogon contributed favorable alleles for each of the five QTLs for RRL, which is a primary parameter for Al tolerance, and individually they explained 9.0-24.9% of the phenotypic variation. Epistatic analysis revealed that CRL was conditioned by an epistatic effect, whereas SRL and RRL were controlled by additive effects. Comparative genetic analysis showed that QTLs for RRL, which mapped on chromosomes 1 and 9, appear to be consistent among different rice populations. Interestingly, a major QTL for RRL, which explained 24.9% of the phenotypic variation, was found on chromosome 3 of rice, which is conserved across cereal species. These results indicate the possibilities to use marker-assisted selection and pyramiding QTLs for enhancing Al tolerance in rice. Positional cloning of such QTLs introgressed from O. rufipogon will provide a better understanding of the Al tolerance mechanism in rice and the evolutionary genetics of plant adaptation to acid-soil conditions across cereal species.     

Mapping of genes controlling aluminum tolerance in rice: comparison of different genetic backgrounds

Aluminum toxicity is the main factor limiting the productivity of crop plants in acid soils, particularly in the tropics and subtropics. In this study, a doubled-haploid population derived from the rice ( Oryza sativa L.) breeding lines CT9993 and IR62266 was used to map genes controlling Al tolerance. A genetic linkage map consisting of 280 DNA markers (RFLP, AFLP and SSR) was constructed to determine the position and nature of quantitative trait loci (QTLs) affecting Al tolerance. Three characters - control root length (CRL), Al-stressed root length (SRL) and root length ratio (RR) - were evaluated for the DH lines and the parents at the seedling stage in nutrient solution. A total of 20 QTLs controlling root growth under Al stress and control conditions were detected and distributed over 10 of the 12 rice chromosomes, reflecting multigenic control of these traits. The two QTLs of largest effect, qALRR-1-1 and qALRR-8 for root length ratio (a measurement of Al tolerance) were localized on chromosomes 1 and 8, respectively. Three other QTLs in addition to qALRR-8 were apparently unique in the CT9993 x IR62266 mapping population, which may explain the high level of Al tolerance in CT9993. Comparative mapping identified a conserved genomic region on chromosome 1 associated with Al tolerance across three rice genetic backgrounds. This region provides an important starting point for isolating genes responsible for different mechanisms of aluminum tolerance and understanding the genetic nature of this trait in rice and other cereals.     

水稻发芽期和幼苗前期耐碱性的鉴定方法研究

通过采用4种不同浓度的Na2CO3模拟碱胁迫,以水稻发芽期发芽势和发芽率的相对碱害率以及幼苗前期的根数、根长和苗高的相对碱害率为鉴定评价指标,研究水稻发芽期和幼苗前期耐碱性鉴定的碱胁迫条件。结果表明,水稻发芽势对碱胁迫的反应较发芽率更为敏感;根长对碱胁迫的反应较苗高和根数更为敏感;幼苗前期对碱胁迫的反应较发芽期更为敏感。在0．15％或0．20％Na2CO3胁迫下水稻发芽势和发芽率的相对碱害率平均值、方差和变异幅度较大。且其分布均匀合理,可作为水稻发芽期耐碱性鉴定的碱胁迫条件;而在0．10％或0．15％Na2CO3胁迫下,幼苗前期根数、根长和苗高的相对碱害率以及综合相对碱害率的平均值、方差和变异幅度较大,且分布相对均匀合理,可作为水稻幼苗前期耐碱性鉴定的碱胁迫条件。在碱胁迫下,水稻发芽势、发芽率、根数、根长和苗高的表型值分别与它们自身的相对碱害率呈极显著的负相关;发芽率的相对碱害率与根数、根长和苗高的相对碱害率呈显著的正相关;发芽期的综合相对碱害率与幼苗前期的综合相对碱害率呈显著的正相关;因此,以水稻发芽期的耐碱性可间接判断水稻幼苗前期的耐碱性。     

Conditional and unconditional QTL mapping of drought-tolerance-related traits of wheat seedling using two related RIL populations

For discovering the quantitative trait loci (QTLs) contributing to early seedling growth and drought tolerance during germination, conditional and unconditional analyses of 12 traits of wheat seedlings: coleoptile length, seedling height, longest root length, root number, seedling fresh weight, stem and leaves fresh weight, root fresh weight, seedling dry weight, stem and leaves dry weight, root dry weight, root to shoot fresh weight ratio, root-to-shoot dry weight ratio, were conducted under two water conditions using two F_8:9 recombinant inbred line (RIL) populations. The results of unconditional analysis are as follows: 88 QTLs accounting for 3.33–77.01% of the phenotypic variations were detected on chromosomes 1A, 1B, 1D, 2A, 2B, 2D, 3A, 3B, 4A, 4B, 4D, 5A, 5B, 5D, 6A, 6B, 6D, 7A, 7B and 7D. Among these QTLs, 19 were main-effect QTLs with a contribution rate greater than 10%. The results of the conditional QTL analysis of 12 traits under osmotic stress on normal water conditions were as follows: altogether 22 QTLs concerned with drought tolerance were detected on chromosomes 1B, 2A, 2B, 3B, 4A, 5D, 6A, 6D, 7B, and 7D. Of these QTLs, six were main-effect QTLs. These 22 QTLs were all special loci directly concerned with drought tolerance and most of them could not be detected by unconditional analysis. The finding of these QTLs has an important significance for fine-mapping technique, map-based cloning, and molecular marker-assisted selection of early seedling traits, such as growth and drought tolerance.     

硒和碲对缓解糜子镉毒害及减少籽粒镉积累的调控效应

提高糜子(Panicum miliaceum)镉耐受性与低积累能力对镉污染地区糜子的安全生产具有重要意义。该研究以镉耐受和镉敏感糜子品种为材料, 通过苗期水培和全生育期盆栽试验, 分析不同形态硒和四价碲对镉胁迫下糜子生长、根系形态、镉吸收转运和籽粒矿质营养含量的影响。结果表明, 外源添加硒和碲能缓解镉毒害, 其中有机硒缓解效果较好。与单独镉处理相比, 硒和碲能够促进根系直径增加并抑制镉吸收, 最高可使根系镉含量降低33%。此外, 硒和碲能够增加细胞壁和液泡中镉的占比, 提高镉耐受性。叶面喷施硒提高了糜子籽粒中锌、锰和钼等矿质营养元素含量。无机四价硒能更有效地抑制镉从营养器官向籽粒的转运, 在5 mg·kg^-1镉处理下, 可使镉敏感和镉耐受品种籽粒镉含量分别降低11.3%和20.3%。综上, 外源添加硒能够显著提高糜子镉耐受性并减少籽粒镉积累。研究结果可为镉污染地区糜子的安全生产提供参考。     

水稻资源芽期和苗期耐盐碱性综合评价及耐盐基因分析

培育耐盐碱水稻品种是应对全球人口日益增长的重要途径之一。文中以21份耐盐碱性不同的水稻品种(系)为材料,在芽期和苗期设置6个不同盐碱浓度处理,测定了发芽势、发芽率、芽长、根长、根数、芽鲜重和苗鲜总重等指标,以各指标盐害率的平均值作为耐盐碱性的综合评价标准。结果表明随着盐碱浓度的提升,对种子萌发和生长的抑制越明显。在1%NaCl加0.25%NaHCO3溶液处理下,发芽率盐害率变异最大,为0%–89.80%。在所有浓度处理下,各性状指标的盐害率都具有相似的变化趋势。筛选到4份综合耐盐碱能力强(大酒谷、日本晴、魔王谷和02428)和7份弱的种质资源。比较了4份耐盐碱强和3份耐盐碱弱的资源耐盐基因序列:OsHAL3和OsRR22基因在7份材料中没有差异,SKC1和DST基因在耐盐碱强和耐盐碱弱的品种之间有明显的变异。研究结果为进一步挖掘水稻耐盐碱基因和培育耐盐碱水稻新品种提供了种质资源和理论基础。