Acta Agron Sin ›› 2016, Vol. 42 ›› Issue (10): 1479-1486.doi: 10.3724/SP.J.1006.2016.01479
• CROP GENETICS & BREEDING·GERMPLASM RESOURCES·MOLECULAR GENETICS • Previous Articles Next Articles
LIAN Yun1,??, WANG Jin-She1,??, LI Hai-Chao1, WEI He1, LI Jin-Ying1, WU Yong-Kang1, LEI Chen-Fang1, ZHANG Hui1, WANG Shu-Feng1, GUO Jian-Qiu2, LI Yue-Xia2, LI Zhi-Hui3, JIN Qiao-Ling3, XU Shu-Xia4, ZHANG Zhi-Min4, YANG Cai-Yun5, YU Hui-Yong5, GENG Zhen6, SHU Wen-Tao6, and LU Wei-Guo1,?
[1]WratherJA,KoenningSR.EstimatesofdiseaseeffectsonsoybeanyieldsintheUnitedStates2003to2005.JNematol,2006,38:173–180 [2]NiblackTL,TylkaGL,RiggsRD.Nematodepathogensofsoybean.WilcoxJR.Soybeans:Improvement,Production,andUses.Madison,WI,USA:Americansocietyofagronomy,cropsciencesocietyofAmerica,andsoilsciencesocietyofAmerica,2004.pp821–851 [3]NiblackTL,WratherJA,HeinzRD,DonaldPA.DistributionandvirulencephenotypesofHeteroderaglycinesinMissouri.PlantDis,2003,87(8):929–932 [4]WillsonHR,RiedelRM,EisleyJB,YoungCE,JasinskiJR,WheelerTA,KauffmanPH,PiersonPE,StuartMC.DistributionandvirulencephenotypesofHeteroderaglycinesinMissouri.JNematol,1996,28:599–603 [5]MitchumMG,WratherJA,HeinzRD,ShannonJG,DanekasG.VariabilityindistributionandvirulencephenotypesofHeteroderaglycinesinMissouriduring2005.PlantDis,2007,91:1473–1476 [6]何艳琴,闫晓燕,吴存祥,杨中路,年海.中国大豆新品种动态.北京:中国农业科学技术出版社,2013 HeYQ,YanXY,WuCX,YangZL,NianH.ThedynamicofnewsoybeanvarietyinChina.Beijing:ChinaAgriculturalScienceandTechnologyPress,2013 [7]练云,卢为国.大豆抗SCN机制及抗病相关基因研究进展.中国油料作物学报,2013,35:727–732 LianY,LuWG.AdvancesonresistancemechanismandgenetoSCNinsoybean.ChinJOilCropSci,2013,35:727–732(inChinesewithEnglishabstract) [8]卢为国,盖钧镒,李卫东.黄淮地区大豆胞囊线虫(HeteroderaglycinesIchinohe)生理小种的抽样调查与研究.中国农业科学,2006,39:306–312 LuWG,GaiJY,LiWD.Samplingsurveyandidentificationofracesofsoybeancystnematode(HeteroderaglycinesIchinohe)inHuang-HuaiValleys.SciAgricSin,2006,39:306–312(inChinesewithEnglishabstract) [9]张磊.安徽淮北地区大豆胞囊线虫生理小种研究初报.大豆科学,1988,7:251–254 ZhangL.Preliminaryresearchonracesofsoybeancystnematode(HeteroderaglycinesIchinohe)inHuaibeiareaofAnhuiprovince.SoybeanSci,1988,7:251-254 [10]陈品三,张东生,陈森玉.大豆胞囊线虫7号生理小种的研究初报.中国农业科学,1987,20(2):94 ChenPS,ZhangDS,ChenSY.Firstreportonanewphysiologicalrace(race7)ofsoybeancystnematode(Heteroderaglycines).SciAgricSin,1987,20(2):94 [11]刘汉起,商邵刚,甄鸿杰,霍虹,吴和礼,姚振纯,李秀兰.大豆胞囊线虫生理小种研究初报.大豆科学,1985,4:131–136 LiuHQ,ShangSG,ZhenHJ,HuoH,WuHL,YaoZC,LiXL.Studyonphysiologicalracesofsoybeancystnematode(Heteroderaglycines).SoybeanSci,1985,4:131–136(inChinesewithEnglishabstract) [12]李卫东,贺春林,田保明.河南省大豆胞囊线虫分布及生理小种鉴定.华北农学报,1991,6(增刊1):111–114 LiWD,HeCL,TianBM.Samplingsurveyandidentificationofracesofsoybeancystnematode(HeteroderaglycinesIchinohe)intheprovinceofHenan.ActaAgricBoreali-Sin,1991,6(S1):111–114 [13]邢邯,赵经荣,战明奎,李佩廷,盖钧镒.山东省大豆胞囊线虫生理小种的鉴定.中国油料作物学报,1997,19(4):61–65 XingH,ZhaoJR,ZhanMK,LiPT,GaiJY.Identificationofracesofsoybeancystnematode(HeteroderaglycinesIchinohe)fromShandongprovince.OilCropsChina,1997,19(4):61–65(inChinesewithEnglishabstract) [14]李莹,王志,焦广音,常汝镇.中国大豆遗传资源对大豆胞囊线虫4号生理小种的抗性鉴定研究.中国农业科学,1991,24(5):64–69 LiY,WangZ,JiaoGY,ChangRZ.Studiesonresistanceofsoybeangermplasmresourcestorace4ofsoybeancystnematode.SciAgricSin,1991,24(5):64–69(inChinesewithEnglishabstract) [15]王衍桐,彭德良,陈受宜.灰布支黑豆对大豆孢囊线虫(Heteroderaglycines)14号小种的抗性遗传.遗传学报,2000,27:146–150 WangYT,PengDL,ChenSY.InheritanceofresistancetoHeteroderaglycinesrace14inHuibuzhiblackbean.ActaGenetSin,2000,27:146–150(inChinesewithEnglishabstract) [16]RiggsRD,SchmittDP.CompletecharacterizationoftheraceschemeforHeteroderaglycines.JNemato,1988,20:392–395 [17]练云,魏荷,王金社,雷晨芳,李海朝,武永康,卢为国.影响大豆胞囊线虫生理小种鉴定因素探讨.分子植物育种,2015,13:1259–1264 LianY,WeiH,WangJS,LeiCF,LiHC,WuYK,LuWG.Astudyonthefactorsthatinfluencetherace-identificationofsoybeancystnematode.MolPlantBreed,2015,13:1259–1264(inChinesewithEnglishabstract) [18]王金社,卢为国,李金英,练云,魏荷,李海朝,雷晨芳.植物病虫害表型数据采集系统.专利号:2014SR060158,中国,2014 WangJS,LuWG,LiJY,LianY,WeiH,LiHC,LeiCF.Thedataacquisitionsystemonthephenotypeofplantdiseasesandinsectpests.Patentnumber:2014SR060158,China,2014 [19]TeamRC.R:Alanguageandenvironmentforstatisticalcomputing.RFoundStatistComput,2014 [20]NiblackTL,ArelliPR,NoelGR,OppermanCH,OrfJH,SchmittDP,ShannonJG,TylkaGL.ArevisedclassificationschemeforgeneticallydiversepopulationsofHeteroderaglycines.JNematol,2002,34:279–288 [21]AfzalAJ,SrourA,SainiN,HemmatiN,ElShemyHA,LightfootDA.RecombinationsuppressionatthedominantRhg1/Rfs2locusunderlyingsoybeanresistancetothecystnematode.TAG,2011,124:1027–1039 [22]YuanCP,LiYH,LiuZX,GuanRX,ChangRZ,QiuLJ.DNAsequencepolymorphismoftheRhg4candidategeneconferringresistancetosoybeancystnematodeinChinesedomesticatedandwildsoybeans.MolBreed,2012,30:1155–1162 [23]GloverKD,WangD,ArelliPR,CarlsonSR,CianzioSR,DiersBW.NearisogeniclinesconfirmasoybeancystnematoderesistancegeneromPI88788onlinkagegroup.JCropSci,2004,44:936–941 [24]VuongTD,SleperDA,ShannonJG,NguyenHT.Novelquantitativetraitlociforbroad-basedresistancetosoybeancystnematode(HeteroderaglycinesIchinohe)insoybeanPI567516C.ThoerApplGenet,2010,121:1253–1266 [25]LiuX,LiuS,JamaiA,BendahmaneA,LightfootDA,MitchumMG,MeksemK.SoybeancystnematoderesistanceinsoybeanisindependentoftheRhg4locusLRR-RLKgene.FunctIntegrGenomics,2011,11:539–549 [26]卢为国,盖钧镒,郑永战,李卫东.大豆遗传图谱的构建和抗胞囊线虫(HeteroderaglycinesIchinohe)的QTL分析.作物学报,2006,32:1272–1279 LuWG,GaiJY,ZhengYZ,LiWD.ConstructionofasoybeangeneticlinkagemapandmappingQTLsresistanttosoybeancystnematode(HeteroderaglycinesIchinohe).ActaAgronSin,2006,32:1272–1279(inChinesewithEnglishabstract) [27]ConcibidoVC,DiersBW,ArelliPR.AdecadeofQTLmappingforcystnematoderesistanceinsoybean.CropSci,2004,44:1121–1131 [28]AfzalAJ,NatarajanA,SainiN,IqbalMJ,GeislerM,ElShemyHA,MungurR,WillmitzerL,LightfootDA.Thenematoderesistancealleleattherhg1locusalterstheproteomeandprimarymetabolismofsoybeanroots.PlantPhysiol,2009,151:1264–1280 |
[1] | CHEN Ling-Ling, LI Zhan, LIU Ting-Xuan, GU Yong-Zhe, SONG Jian, WANG Jun, QIU Li-Juan. Genome wide association analysis of petiole angle based on 783 soybean resources (Glycine max L.) [J]. Acta Agronomica Sinica, 2022, 48(6): 1333-1345. |
[2] | YANG Huan, ZHOU Ying, CHEN Ping, DU Qing, ZHENG Ben-Chuan, PU Tian, WEN Jing, YANG Wen-Yu, YONG Tai-Wen. Effects of nutrient uptake and utilization on yield of maize-legume strip intercropping system [J]. Acta Agronomica Sinica, 2022, 48(6): 1476-1487. |
[3] | YU Chun-Miao, ZHANG Yong, WANG Hao-Rang, YANG Xing-Yong, DONG Quan-Zhong, XUE Hong, ZHANG Ming-Ming, LI Wei-Wei, WANG Lei, HU Kai-Feng, GU Yong-Zhe, QIU Li-Juan. Construction of a high density genetic map between cultivated and semi-wild soybeans and identification of QTLs for plant height [J]. Acta Agronomica Sinica, 2022, 48(5): 1091-1102. |
[4] | LI A-Li, FENG Ya-Nan, LI Ping, ZHANG Dong-Sheng, ZONG Yu-Zheng, LIN Wen, HAO Xing-Yu. Transcriptome analysis of leaves responses to elevated CO2 concentration, drought and interaction conditions in soybean [Glycine max (Linn.) Merr.] [J]. Acta Agronomica Sinica, 2022, 48(5): 1103-1118. |
[5] | ZHANG Yi-Zhong, ZENG Wen-Yi, DENG Lin-Qiong, ZHANG He-Cui, LIU Qian-Ying, ZUO Tong-Hong, XIE Qin-Qin, HU Deng-Ke, YUAN Chong-Mo, LIAN Xiao-Ping, ZHU Li-Quan. Codon usage bias analysis of S-locus genes SRK, SLG, and SP11/SCR in Brassica oleracea [J]. Acta Agronomica Sinica, 2022, 48(5): 1152-1168. |
[6] | PENG Xi-Hong, CHEN Ping, DU Qing, YANG Xue-Li, REN Jun-Bo, ZHENG Ben-Chuan, LUO Kai, XIE Chen, LEI Lu, YONG Tai-Wen, YANG Wen-Yu. Effects of reduced nitrogen application on soil aeration and root nodule growth of relay strip intercropping soybean [J]. Acta Agronomica Sinica, 2022, 48(5): 1199-1209. |
[7] | WANG Hao-Rang, ZHANG Yong, YU Chun-Miao, DONG Quan-Zhong, LI Wei-Wei, HU Kai-Feng, ZHANG Ming-Ming, XUE Hong, YANG Meng-Ping, SONG Ji-Ling, WANG Lei, YANG Xing-Yong, QIU Li-Juan. Fine mapping of yellow-green leaf gene (ygl2) in soybean (Glycine max L.) [J]. Acta Agronomica Sinica, 2022, 48(4): 791-800. |
[8] | LI Rui-Dong, YIN Yang-Yang, SONG Wen-Wen, WU Ting-Ting, SUN Shi, HAN Tian-Fu, XU Cai-Long, WU Cun-Xiang, HU Shui-Xiu. Effects of close planting densities on assimilate accumulation and yield of soybean with different plant branching types [J]. Acta Agronomica Sinica, 2022, 48(4): 942-951. |
[9] | DU Hao, CHENG Yu-Han, LI Tai, HOU Zhi-Hong, LI Yong-Li, NAN Hai-Yang, DONG Li-Dong, LIU Bao-Hui, CHENG Qun. Improving seed number per pod of soybean by molecular breeding based on Ln locus [J]. Acta Agronomica Sinica, 2022, 48(3): 565-571. |
[10] | ZHOU Yue, ZHAO Zhi-Hua, ZHANG Hong-Ning, KONG You-Bin. Cloning and functional analysis of the promoter of purple acid phosphatase gene GmPAP14 in soybean [J]. Acta Agronomica Sinica, 2022, 48(3): 590-596. |
[11] | WANG Juan, ZHANG Yan-Wei, JIAO Zhu-Jin, LIU Pan-Pan, CHANG Wei. Identification of QTLs and candidate genes for 100-seed weight trait using PyBSASeq algorithm in soybean [J]. Acta Agronomica Sinica, 2022, 48(3): 635-643. |
[12] | ZHANG Guo-Wei, LI Kai, LI Si-Jia, WANG Xiao-Jing, YANG Chang-Qin, LIU Rui-Xian. Effects of sink-limiting treatments on leaf carbon metabolism in soybean [J]. Acta Agronomica Sinica, 2022, 48(2): 529-537. |
[13] | XIE Qin-Qin, ZUO Tong-Hong, HU Deng-Ke, LIU Qian-Ying, ZHANG Yi-Zhong, ZHANG He-Cui, ZENG Wen-Yi, YUAN Chong-Mo, ZHU Li-Quan. Molecular cloning and expression analysis of BoPUB9 in self-incompatibility Brassica oleracea [J]. Acta Agronomica Sinica, 2022, 48(1): 108-120. |
[14] | RUAN Jun-Mei, ZHANG Jun, LIU You-Hong, DONG Wen-Jun, MENG Ying, DENG Ai-Xing, YANG Wan-Shen, SONG Zhen-Wei, ZHANG Wei-Jian. Effects of free air temperature increase on nitrogen utilization of rice in northeastern China [J]. Acta Agronomica Sinica, 2022, 48(1): 193-202. |
[15] | SONG Li-Jun, NIE Xiao-Yu, HE Lei-Lei, KUAI Jie, YANG Hua, GUO An-Guo, HUANG Jun-Sheng, FU Ting-Dong, WANG Bo, ZHOU Guang-Sheng. Screening and comprehensive evaluation of shade tolerance of forage soybean varieties [J]. Acta Agronomica Sinica, 2021, 47(9): 1741-1752. |
|