共查询到19条相似文献,搜索用时 62 毫秒
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以高糖西瓜品系花园母本为母本、低糖西瓜品系LSW-177为父本配制杂交组合,构建含有125个单株的F2S7重组自交系群体(RILs),利用CAPS分子标记构建了1张包含245个CAPS标记、11个连锁群的遗传连锁图谱,该图谱覆盖基因组长度2423.9c M,标记间的平均距离9.9c M。采用复合区间作图法对西瓜糖含量相关性状进行QTL分析,定位到与可溶性固形物相关的QTL4个,表型贡献率分别为14.80%、11.50%、32.10%、8.60%;与果糖相关的QTL3个,表型贡献率分别为8.80%、20.50%、9.50%;与蔗糖和葡萄糖相关的QTL各1个,表型贡献率分别为11.34%、24.10%。这9个QTL均表现为对糖含量的正加性效应,表明系高糖西瓜品系花园母本提供了对糖含量的贡献。 相似文献
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以WI998(厚皮网纹、纯雌株甜瓜品系)为母本,以3-2-2(薄皮、雌雄异花同株甜瓜品系)
为父本进行杂交,通过单粒传得到了含有124 个F6:7 家系的重组自交系群体,构建遗传连锁图谱。在608
对SSR 引物中筛选出亲本间有多态性的引物150 对,多态率为24.67%;该图谱包含17 个连锁群,覆盖基
因组长度为1 246.67 cM,标记间的平均距离为9.59 cM。应用复合区间作图法对甜瓜单果质量(Fw)、果
实硬度(Ff)、果实长度(Fl)、果形指数(Fsi)及果肉厚度(Ft)等性状进行QTL 分析,共检测到15 个
QTL,分别分布在第1、4、5、6、8、10、13、14、15、17 连锁群上,其中8 个QTL 贡献率超过10%,
位于第13 连锁群的QTL Ff13.2 贡献率最大, 为26.45%。标记ECM87 与Fsi8.2 位于同一位点, 标记
CM33 与Fsi15.1 紧密连锁,遗传距离为0.6 cM。 相似文献
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西瓜果实总糖含量QTL分析 总被引:1,自引:0,他引:1
【目的】为了探讨西瓜果实中总糖含量的遗传规律并找到与总糖含量相关的QTL位点,【方法】以高糖品系‘花园母本’为母本,低糖品系‘LSW-177’为父本,配制杂交组合,构建含有180个单株的F2代群体,分别测量成熟西瓜果实中心和边缘部分果糖、蔗糖和葡萄糖含量,并将3者之和相加作为总糖含量进行遗传图谱构建及QTL分析。【结果】构建的遗传连锁图谱共包含45个SSR标记,分属于13个连锁群,覆盖基因组长度为547.3 cM,标记间平均距离为12.44 cM,检测到与中心和边缘总糖含量相关的QTL位点各一个,均为加性遗传效应,贡献率分别为6.56%、7.90%,分布在第3、12连锁群上,LOD值分别为3.1、3.29,找到与中心和边缘总糖含量紧密连锁的标记4个(MU8184-3、MCPI-12、TJ116、MU8558-3),该研究结果为进一步开展西瓜糖含量相关基因定位和克隆研究提供理论依据。【结论】西瓜果实总糖含量为数量性状遗传,由多基因共同控制,中心部分总糖含量QTL位点表现为正向加性效应,边缘部分总糖含量QTL位点表现为负向加性效应。 相似文献
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《果树学报》2016,(10)
【目的】探讨西瓜果肉颜色和β-胡萝卜素含量等性状的遗传规律并进行QTL分析。【方法】以白色果肉西瓜品系PI186490和红色果肉西瓜品系LSW-177为亲本获得包含359个单株的F2代群体,对成熟西瓜果实果肉颜色、β-胡萝卜素含量等性状进行调查,同时以高通量测序为基础开发195个CAPS分子标记,进行遗传连锁图谱的构建和QTL分析。【结果】该群体果肉颜色(黄色、红色、白色)的分离比例符合9∶3∶4的隐性上位遗传模型。构建的遗传连锁图谱包含11个连锁群、覆盖基因组总长度为2 029.8 c M,标记间平均距离为10.46 c M。共获得与果肉颜色、β-胡萝卜素含量、果实长度、果实宽度、果形指数、边缘果肉硬度及可溶性固形物含量等性状相关的位点24个,可解释1.39%~70.29%的表型变异。其中,与果肉颜色相关的主效位点2个,位于4号和6号连锁群上;与果形指数相关的主效QTL位点1个,位于3号连锁群上;β-胡萝卜素含量、果实长度、果实宽度、边缘果肉硬度4个性状均找到贡献率大于10%的位点。【结论】用CAPS标记构建西瓜遗传连锁图谱,获得与西瓜果肉颜色、β-胡萝卜素含量等性状相关的QTL位点24个,为进一步开展西瓜果实相关基因定位和克隆研究提供理论依据。 相似文献
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《中国瓜菜》2016,(12):6-9
以高番茄红素含量的自交系‘花贝雷’(P_1)和低番茄红素含量的自交系‘13-3-3’(P_2)为亲本材料,构建了包括P_1、P_2、B_1、B_2、F_1及F_2的6个世代群体,采用数量性状主基因+多基因混合遗传的六世代联合分析法,对西瓜果实番茄红素含量的遗传规律进行研究。结果表明,番茄红素含量的遗传符合"一对加性—显性主基因+加性—显性—上位性多基因"模型,其中主基因的加性效应为6.43,显性效应为-4.00,主基因在B_1、B_2和F_2世代的遗传率分别为21.76%、3.99%、27.28%;多基因的遗传率分别为77.65%、94.64%、72.09%。研究结果将为西瓜果实高番茄红素优异基因的挖掘和优质新品种选育提供理论依据。 相似文献
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梨果实相关性状QTL定位分析 总被引:1,自引:0,他引:1
以‘红茄梨’(Pyrus communis L.‘Red Clapp Favorite’)和‘晚秀梨’(P. pyrifolia Nakai‘Mansoo’)杂交F1代中已结果的81株单株为试材,利用81株单株的SSR分型数据进行连锁分析,构建了包含187个SSR标记,分布在18个连锁群上的遗传连锁图谱。图谱总长964.82 cM,标记平均间距5.16 cM,与之前利用该群体165株单株为材料构建的双亲整合图谱比较,86.59%的标记在连锁群中的排列顺序一致。利用MapQTL5.0软件,对果实表型性状进行QTL定位和分析,最终检测到与果实单果质量、纵径和横径连锁的4个QTL位点,都位于LG11,离最近分子标记的遗传距离为1.00 ~ 2.00 cM。进一步对检测出的果实大小QTL位点距离最近的标记基因型与表型比对分析,发现其符合度在72.5% ~ 82.5%。 相似文献
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小型西瓜果实中番茄红素含量的比较研究 总被引:3,自引:0,他引:3
用含2%二氯甲烷的石油醚有机溶剂提取小型西瓜果实中的番茄红素,通过分光光度法在503 nm波长下测定其吸收值,分析比较了不同品种(系)小型西瓜果实中番茄红素含量的差异.研究结果表明,红瓤和粉红瓤小西瓜果实中番茄红素主要在果实发育的后期合成,授粉后第18~24 d是西瓜果实番茄红素合成的关键时期,橙、黄瓤西瓜中番茄红素含量的变化不明显;西瓜果实中番茄红素含量因品种、瓤色差异显著,红瓤品种>粉红瓤品种>橙瓤品种>黄瓤品种,所测红瓤小型西瓜番茄红素含量为56.6~75.2μg/g. 相似文献
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Yasutaka Kano 《The Journal of Horticultural Science and Biotechnology》2013,88(1):142-145
SummaryEffects of temperature on the sugar content of watermelons were investigated in the outer, middle and central portions of the fruit, respectively. Cubic boxes covered with transparent plastic ®lm (designated as the ®lm covering) and well ventilated wooden slats (designated as the shading), were put on watermelon fruits from 0500 to 1800 hours for 10.d from day 30 after anthesis (daa). Flesh temperature at all portions was highest in the ®lm covering and the lowest in the shading. Rind thickness was least in the shading. Sucrose content was high in the middle portion of the fruit in the shading, but was low in the ®lm covering. Glucose and fructose content was high in the central portion of the fruit in the shading but low in the ®lm covering. Watermelon fruit with thin rind and high sugar content can be produced by lowering the day temperature by shading only the fruits. 相似文献
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《Scientia Horticulturae》2005,104(1):57-64
Flower pigmentation is one of the most important traits for ornamental plants. To clarify the genetic basis for carotenoid pigmentation in flower tepals of Asiatic hybrid lily (Lilium sp.), we evaluated the segregation of a tepal-carotenoid content among F1 plants derived from a cross between ‘Montreux’ (having a small amount of carotenoids) and ‘Connecticut King’ (having a large amount of carotenoids), and mapped genetic loci for the carotenoid pigmentation onto the molecular linkage maps of ‘Montreux’ and ‘Connecticut King’ that we constructed previously. The tepal-carotenoid content among the F1 plants showed continuous segregation, indicating that several genes are associated with this trait. Quantitative trait loci (QTL) analysis identified one QTL, qCARmon6, on the sixth linkage group of the ‘Montreux’ map. qCARmon6 explained 58.2% of the total phenotypic variation, that is, this locus had a large effect on the carotenoid accumulation. The result that qCARmon6 was mapped on the linkage group of ‘Montreux’ which has a small amount of carotenoid pigments in tepals indicates that this locus has a dominant negative effect on carotenoid pigmentation. 相似文献
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不同南瓜砧木对西瓜挥发性风味物质的影响 总被引:1,自引:0,他引:1
以小果型西瓜金星为接穗,选用博大嫁接王、圣砧1号等6种不同南瓜砧木嫁接,采用顶空固相微萃取方法和气相色谱—质谱联用技术(HS-SPME),分析西瓜自根苗和不同嫁接砧木对西瓜成熟果实挥发性风味物质成分的影响。结果表明,共得到92种挥发性风味物质,其中醛、醇类和酮类物质46种,占总数的50.0%,相对含量在37.84%~88.43%;(E,Z)-2,6-壬二烯醛和(E)-2-壬烯醛是构成金星西瓜的主要风味物质,含量分别是31.22%和14.22%,壬烯醛及其同系物是西瓜主要特征风味物质;丁基邻苯二甲酸十四酯在金星西瓜自根苗果实中含量高达10.53%,采用6种不同南瓜砧木嫁接的西瓜果实中该物质均未检测出;嫁接明显改变了西瓜果实中醛类、醇类物质的相对含量,同时嫁接明显降低西瓜果实中酯类物质含量,嫁接在一定程度上使西瓜果实中风味物质含量发生明显变化并改变了西瓜果实风味物质的组成。 相似文献
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The regulation of flowering time has been studied mainly in photoperiod-sensitive model plants. Little is known about the environmental and genetic regulation of flowering time in photoperiod-insensitive plants. Here, we studied the genetic control of flowering time in day-neutral tomato using quantitative trait locus (QTL) analysis. We used a BC1F6 population developed from Solanum lycopersicum ‘M570018’ and its wild relative Solanum pimpinellifolium (PI124039) to measure days to flowering (DTF) and number of leaves preceding the first inflorescence (LN), as well as their underlying developmental processes, which include the number of leaves initiated (LI), percentage of flower-induced plants (reproductive index, RI), days to macroscopic flower bud appearance (DMB) and flower development duration (FDD: DTF − DMB). A composite interval mapping detected 12 QTLs for the six traits, which included two QTLs for DTF on chromosomes 1 and 6. The DTF QTLs explained 43% of the phenotypic variation of this trait. The presence of S. pimpinellifolium alleles in the detected QTLs increased the rate of leaf initiation, reduced LN and hastened flower induction, floral development and anthesis. Most QTLs for LN, LI, RI, DMB and FDD clustered with the DTF QTLs; dmb1, fdd1, li_14d1, li_19d1 and ri_19d1 clustered with dtf1 on chromosome 1, and ln6 and fdd6 clustered with dtf6 on chromosome 6. These results suggest that the QTLs on chromosomes 1 and 6 may form a functional “gene cluster” that drives tomato flowering in synergy. Alternatively, the two DTF QTLs may act as “master genes” that control flowering time through pleiotropic effects on multiple developmental processes. 相似文献