苹果遗传图谱的构建与QTL定位研究进展-《江苏农业科学》

参考文献/References:

［1］王金政，薛晓敏，路超. 我国苹果生产现状与发展对策［J］. 山东农业科学，2010(6)：117-119.
［2］田翠，张涛，蒋开锋，等. 水稻QTL定位研究进展［J］. 基因组学与应用生物学，2009，28(3)：557-562.
［3］刘杰. 马铃薯分子连锁图谱及QTL研究进展［C］. 中国作物学会马铃薯专业委员会年会暨学术研讨会论文集，2006：239-245.
［4］Hemmat M，Weeden N F，Manganaris A G，et al. Molecular marker linkage map for apple［J］. The Journal of Heredity，1994，85(1)：4-11.
［5］Helyar S J，Hemmer-Hansen J，Bekkevold D，et al. Application of SNPs for population genetics of nonmodel organisms：new opportunities and challenges［J］. Molecular Ecology Resources，2011，11(Suppl 1)：123-136.
［6］Weeden N F，Hemmatt M，Lawson D M，et al. Development and application of molecular marker linkage maps in woody fruit crops［J］. Euphytica，1994，77(1/2)：71-75.
［7］李英慧，韩振海，许雪峰.分子标记技术在苹果育种中的应用［J］. 生物技术通报，2002(6)：11-13，10.
［8］常源升. 苹果果形性状遗传分析与QTL定位［D］. 北京：中国农业大学，2014.
［9］Liebhard R，Koller B，Gianfranceschi L，et al. Creating a saturated reference map for the apple (Malus ×domestica Borkh.) genome［J］. Theoretical and Applied Genetics，2003，106(8)：1497-1508.
［10］ Conner P J，Brown S K，Weeden N F. Randomly amplified polymorphic DNA-based genetic linkage maps of three apple cultivars［J］. Journal of the American Society for Horticultural Science，1997，122：350-359.
［11］Maliepaard C，Alston F H，van Arkel G，et al. Aligning male and female linkage maps of apple (Malus pumila Mill.) using multi-allelic markers［J］. Theoretical and Applied Genetics，1998，97(1/2)：60-73.
［12］ Liebhard R，Gianfranceschi L，Koller B，et al. Development and characterisation of 140 new microsatellites in apple (Malus×domestica Borkh.)［J］. Molecular Breeding，2002，10，217-241.
［13］ Kenis K，Keulemans J. Genetic linkage maps of two apple cultivars(Malus×domestica Borkh.)based on AFLP and microsatellite markers［J］. Molecular Breeding，2005，15：205-219.
［14］ Silfverberg-Dilworth E，Matasci C L，van de Weg W E，et al. Microsatellite markers spanning the apple (Malus×domestica Borkh.)genome［J］. Tree Genetics & Genomes，2006，2(4)：202-224.
［15］Igarashi M，Abe Y，Hatsuyama Y，et al. Linkage maps of the apple (Malus×domestica Borkh.) cvs ‘Ralls Janet’ and ‘Delicious’ include newly developed EST markers［J］. Molecular breeding，2008，22：95-118.
［16］Ndiaye A，van de Weg W E，Kodde L P，et al. Construction of an integrated consensus map of the apple genome based on four mapping populations［J］. Tree Genetics & Genomes，2008，4(4)：727-743.
［17］Celton J M，Tustin D S，Chagné D，et al. Construction of a dense genetic linkage map for apple rootstocks using SSRs developed from Malus ESTs and Pyrus genomic sequences［J］. Tree Genetics & Genomes，2009，5(1)：93-107.
［18］ Wang A，Aldwinckle H，Forsline P，et al. EST contig-based SSR linkage maps for Malus×domestica cv Royal Gala and an apple scab resistant accession of M. sieversii［J］. The Progenitor Species of Domestic Apple，2012，29：379-397.
［19］Fernández-Fernández F，Antanaviciute L，van Dyk M M，et al. A genetic linkage map of an apple rootstock progeny anchored to the Malus genome sequence［J］. Tree Genetics & Genomes，2012，8(5)：991-1002.
［20］Schouten H J，van de Weg W E，Carling J，et al. Diversity arrays technology (DArT) markers in apple for genetic linkage maps［J］. Molecular Breeding：New Strategies in Plant Improvement，2012，29(3)：645-660.
［21］Antanaviciute L，Fernández-Fernández F，Jansen J，et al. Development of a dense SNP-based linkage map of an apple rootstock progeny using the Malus infinium whole genome genotyping array［J］. BMC Genomics，2012，13：203.
［22］Clark M D，Schmitz C A，Rosyara U R，et al. A consensus‘Honeycrisp’apple (Malus×domestica) genetic linkage map from three full-sib progeny populations［J］. Tree Genetics & Genomes，2014，10：627-639.
［23］Gardner K M，Brown P，Cooke T F，et al. Fast and cost-effective genetic mapping in apple using next-generation sequencing［J］. G3 (Bethesda)，2014，4(9)：1681-1687.
［24］司鹏. 苹果分子遗传图谱构建及其部分性状SRAP分析［D］. 北京：中国农业科学院，2010.
［25］刘遵春. 新疆野苹果(Malus sieversi)核心种质与遗传图谱构建的研究［D］. 泰安：山东农业大学，2010.
［26］李爽. 苹果SSR标记体系的优化及遗传连锁图谱构建初探［D］. 杨凌：西北农林科技大学，2011.
［27］Tartarini S. RAPD markers linked to the Vf gene for scab resistance in apple［J］. Theoretical and Applied Genetics，1996，92(7)：803-810.
［28］Soriano J M，Joshi S G，van Kaauwen M，et al. Identification and mapping of the novel apple scab resistance gene Vd3［J］. Tree Genetics & Genomes，2009，5(3)：475-482.
［29］Dunemann F，Egerer J. A major resistance gene from Russian apple ‘Antonovka’ conferring field immunity against apple scab is closely linked to the Vf locus［J］. Tree Genetics & Genomes，2010，6(5)：627-633.
［30］Khan M A，Duffy B，Gessler C，et al. QTL mapping of fire blight resistance in apple［J］. Molecular Breeding，2006，17(4)：299-306.
［31］Calenge F，Durel C E. Both stable and unstable QTLs for resistance to powdery mildew are detected in apple after four years of field assessments［J］. Molecular Breeding，2006，17(4)：329-339.
［32］Stoeckli S，Mody K，Gessler C，et al. QTL analysis for aphid resistance and growth traits in apple［J］. Tree Genetics & Genomes，2008，4(4)：833-847.
［33］Stoeckli S，Mody K，Patocchi A，et al. Rust mite resistance in apple assessed by quantitative trait loci analysis［J］. Tree Genetics & Genomes，2009，5(1)：257-267.
［34］Moriya S，Iwanami H，Takahashi S，et al. Genetic mapping of the crown gall resistance gene of the wild apple Malus sieboldii［J］. Tree Genetics & Genomes，2010，6(2)：195-203.
［35］殷豪. 苹果枝干轮纹病抗病性状分子标记及几丁质酶基因克隆研究［D］. 青岛：青岛农业大学，2011.
［36］敬小康，吕松，刘欣颖，等. Malus asiatica×M.domestica种间杂种苹果斑点落叶病感病性的QTL定位［J］. 中国农业大学学报，2014，19(6)：140-147.
［37］崔镁沙，庄艳，申飞，等. 苹果果实轮纹病抗病性QTL定位及相关基因的初步预测［J］. 果树学报，2014，31(5)：793-800.
［38］Kenis K，Keulemans J，Davey M W. Identification and stability of QTLs for fruit quality traits in apple［J］. Tree Genetics & Genomes，2008，4(4)：647-661.
［39］Dunemann F，Ulrich D，Boudichevskaia A，et al. QTL mapping of aroma compounds analysed by headspace solid-phase microextraction gas chromatography in the apple progeny ‘Discovery’×‘Prima’［J］. Mol Breeding，2009，23：501-521.
［40］Chagné D，Krieger C，Rassam M，et al. QTL and candidate gene mapping for polyphenolic composition in apple fruit［J］. BMC Plant Biology，2012，12：12.
［41］Zhang Q，Ma B，Li H，et al. Identification，characterization，and utilization of genome-wide simple sequence repeats to identify a QTL for acidity in apple［J］. BMC Genomics，2012，13：537.
［42］Cappellin L，Farneti B，Di Guardo M，et al. QTL analysis coupled with PTR-ToF-MS and candidate gene-based association mapping validate the role of Md-AAT1 as a major gene in the control of flavor in apple fruit［J］. Plant Molecular Biology Reporter，2015，33(2)：239-252.
［43］Potts S M，Khan M A，Han Y，et al. Identification of quantitative trait loci (QTLs) for fruit qality taits in apple［J］. Plant Mol Biol Rep，2014，32：109-116.
［44］Costa F. MetaQTL analysis provides a compendium of genomic loci controlling fruit quality traits in apple［J］. Tree Genetics & Genomes，2014，11(1)：819.
［45］王雷存，樊红科，高华，等. 苹果酸度基因(Ma)SSR标记及遗传分析［J］. 园艺学报，2012，39(10)：1885-1892.
［46］Conner P J，Brown S K，Weeden N F. Molecular-marker analysis of quantitative traits for growth and development in juvenile apple trees［J］. Theoretical and Applied Genetics，1998，96(8)：1027-1035.
［47］Liebhard R，Kellerhals M，Pfammatter W，et al. Mapping quantitative physiological traits in apple (Malus×domestica Borkh.)［J］. Plant Molecular Biology，2003，52(3)：511-526.
［48］Kenis K，Keulemans J. Study of tree architecture of apple (Malus×domestica Borkh.) by QTL analysis of growth traits［J］. Molecular Breeding，2007，19(3)：193-208.
［49］Dyk M M，Soeker M K，Labuschagne I F，et al. Identification of a major QTL for time of initial vegetative budbreak in apple (Malus×domestica Borkh.)［J］. Tree Genetics & Genomes，2010，6：489-502.
［50］刘遵春，苗卫东，刘大亮，等. 苹果叶片相关性状的QTL定位及其遗传效应分析［J］. 西北植物学报，2014，34(3)：481-487.
［51］贾小丽. 化感水稻的遗传图谱构建及其QTL定位［D］. 福州：福建农林大学，2006.
［52］梅德圣，李云昌，王汉中. 作物产量性状QTL定位的研究现状及应用前景［J］. 中国农学通报，2003，19(5)：83-88.

相似文献/References:

[1]贾永华,李晓龙,牛锐敏,等.叶面喷锌对苹果叶片生长及产量品质的影响[J].江苏农业科学,2014,42(12):218.
　Jia Yonghua,et al.Effects of spraying zinc on leaves on leaf growth ， yield and quality of apple[J].Jiangsu Agricultural Sciences,2014,42(02):218.
[2]里程辉,刘志,王宏,等.不同化学疏花剂对岳帅苹果疏花疏果及果实品质的影响[J].江苏农业科学,2014,42(11):180.
　Li Chenghui,et al(80).Effects of different chemical flower thinners on flower thinning and fruit quality of apple “Yueshuai”[J].Jiangsu Agricultural Sciences,2014,42(02):180.
[3]王贵平,王金政.苹果抗逆性研究进展与鉴定方法[J].江苏农业科学,2013,41(07):151.
　Wang Guiping,et al.Research progress and identification method of stress resistance of apple trees[J].Jiangsu Agricultural Sciences,2013,41(02):151.
[4]李敏,厉恩茂,李壮,等.氨基酸钙叶面微肥对苹果缺素症的矫正及果实品质的影响[J].江苏农业科学,2013,41(11):180.
　Li Min,et al.Effects of calcium amino acid foliar fertilizer on apple element deficiency disease and fruit quality[J].Jiangsu Agricultural Sciences,2013,41(02):180.
[5]赵会彦,肖麓,杜德志.青海大黄油菜黄籽基因SSR标记开发和图谱构建[J].江苏农业科学,2014,42(01):32.
　Zhao Huiyan,et al.Development of SSR marker and construction of genetic maps for yellow-seed gene in Qinghai Dahuang rapeseed[J].Jiangsu Agricultural Sciences,2014,42(02):32.
[6]王贵平,王金政,薛晓敏,等.晚秋叶施高浓度尿素对苹果落叶及贮藏氮素的影响[J].江苏农业科学,2014,42(01):140.
　Wang Guiping,et al.Effects of high concentrations of foliar applied urea on defoliation and nitrogen storage of apple in late autumn[J].Jiangsu Agricultural Sciences,2014,42(02):140.
[7]宋哲,王宏,于年文,等.间伐、控冠处理对乔化凉香苹果树光合速率和果实产质量的影响[J].江苏农业科学,2016,44(05):290.
　Song Zhe,et al.Effects of thinning and crown control on photosynthesis and fruit yield and quality of Liangxiang apple trees[J].Jiangsu Agricultural Sciences,2016,44(02):290.
[8]艾子凌,高鹏,杜黎黎,等.利用CAPS初步定位甜瓜MR-1白粉病抗性基因[J].江苏农业科学,2016,44(06):66.
　Ai Ziling,et al.Location of powdery mildew resistant gene using CAPS makers in melon MR-1[J].Jiangsu Agricultural Sciences,2016,44(02):66.
[9]苏律,宋俊霞,胡同乐,等.铁肥不同施用方式对苹果缺铁黄化病的矫正效果[J].江苏农业科学,2016,44(01):188.
　Su Lü,et al.Corrective effect of iron fertilizer with different fertilization methods on iron chlorosis of apple tree[J].Jiangsu Agricultural Sciences,2016,44(02):188.
[10]李静,宋飞虎,浦宏杰,等.苹果控制排湿压力微波干燥模型研究[J].江苏农业科学,2015,43(11):529.
　Li Jing,et al.Study on mathematical modeling of apple microwave drying under different moisture pressures[J].Jiangsu Agricultural Sciences,2015,43(02):529.

《江苏农业科学》[ISSN:1002-1302/CN:32-1214/S]

文章信息/Info

参考文献/References:

相似文献/References:

备注/Memo

常用功能

导航/Navigate

工具/Tools

统计/Statistics