Diversity and interaction of common bacterial blight disease-causing bacteria(Xanthomonas spp.) with Phaseolus vulgaris L.
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摘要
Common bacterial blight(CBB) is associated with common bean(Phaseolus vulgaris L.), an important grain legume for human consumption worldwide. The disease, caused by Xanthomonas spp. is spread mainly through seed. This paper focuses on the diversity of X.axonopodis pv. phaseoli and X. fuscans subsp. fuscans and interactions between related bacteria and the bean host. Review has suggested that the diversity and taxonomic studies of these pathogens are not exhaustive, especially in areas where detailed molecular analysis has not been conducted and previous characterizations were based on phenotypic features and PCR-based techniques. Also, no study has confirmed differential pathogenicity on bean genotypes based on compatible versus incompatible reactions. However, isolates react differently to wild and domesticated bean sources of resistance in common bean genetic backgrounds. A systematic approach will be required to investigate global changes in gene expression among different sources of resistance in a common bean background.The bacterial isolates that cause CBB should be functionally characterized using genotypes containing major quantitative trait loci(QTL) for CBB resistance. These studies will increase understanding of resistance and how it is manipulated by pathogens.
Common bacterial blight(CBB) is associated with common bean(Phaseolus vulgaris L.), an important grain legume for human consumption worldwide. The disease, caused by Xanthomonas spp. is spread mainly through seed. This paper focuses on the diversity of X.axonopodis pv. phaseoli and X. fuscans subsp. fuscans and interactions between related bacteria and the bean host. Review has suggested that the diversity and taxonomic studies of these pathogens are not exhaustive, especially in areas where detailed molecular analysis has not been conducted and previous characterizations were based on phenotypic features and PCR-based techniques. Also, no study has confirmed differential pathogenicity on bean genotypes based on compatible versus incompatible reactions. However, isolates react differently to wild and domesticated bean sources of resistance in common bean genetic backgrounds. A systematic approach will be required to investigate global changes in gene expression among different sources of resistance in a common bean background.The bacterial isolates that cause CBB should be functionally characterized using genotypes containing major quantitative trait loci(QTL) for CBB resistance. These studies will increase understanding of resistance and how it is manipulated by pathogens.
Common bacterial blight(CBB) is associated with common bean(Phaseolus vulgaris L.), an important grain legume for human consumption worldwide. The disease, caused by Xanthomonas spp. is spread mainly through seed. This paper focuses on the diversity of X.axonopodis pv. phaseoli and X. fuscans subsp. fuscans and interactions between related bacteria and the bean host. Review has suggested that the diversity and taxonomic studies of these pathogens are not exhaustive, especially in areas where detailed molecular analysis has not been conducted and previous characterizations were based on phenotypic features and PCR-based techniques. Also, no study has confirmed differential pathogenicity on bean genotypes based on compatible versus incompatible reactions. However, isolates react differently to wild and domesticated bean sources of resistance in common bean genetic backgrounds. A systematic approach will be required to investigate global changes in gene expression among different sources of resistance in a common bean background.The bacterial isolates that cause CBB should be functionally characterized using genotypes containing major quantitative trait loci(QTL) for CBB resistance. These studies will increase understanding of resistance and how it is manipulated by pathogens.
引文
[1]R.Buruchara,R.Chirwa,L.Sperling,C.Mukankusi,J.C.Rubyogo,R.Muthoni,M.M.Abang,Development and delivery of bean varieties in Africa:the Pan-African Bean Research Alliance(PABRA)model,Afr.Crop.Sci.J.19(2011)227-245.
[2]J.G.Boersma,A.Hou,C.L.Gillard,K.B.McRae,R.L.Conner,Impact of common bacterial blight on the yield,seed weight and seed discoloration of different market classes of dry beans(Phaseolus vulgaris L.),Can.J.Plant Sci.95(2015)703-710.
[3]P.N.Miklas,D.Fourie,B.Chaves,C.Chirembe,Common bacterial blight resistance QTL BC420 and SU91 effect on seed yield,Crop Sci.57(2017)802-811.
[4]J.J.Rodríguez De Luque,B.Creamer,Major constraints and trends for common bean production and commercialization;establishing priorities for future research,Agron.Colomb.32(2015)423-431.
[5]A.Akhavan,M.Bahar,H.Askarian,M.R.Lak,A.Nazemi,Z.Zamani,Bean common bacterial blight:pathogen epiphytic life and effect of irrigation practices,Springerplus 2(2013)41.
[6]A.Darrasse,C.Bureau,R.Samson,C.E.Morris,M.A.Jacques,Contamination of bean seeds by Xanthomonas axonopodis pv.phaseoli associated with low bacterial densities in the phyllosphere under field and greenhouse conditions,Eur.J.Plant Pathol.119(2007)203-215.
[7]A.F.Opio,J.M.Teri,D.J.Allen,Assessment of yield losses caused by common bacterial blight of beans in Uganda,Annual Report of Bean Improvement Cooperative,vol.35,1992,pp.113-114.
[8]EFSA Panel on Plant Health(PLH),Scientific opinion on the pest categorisation of Xanthomonas axonopodis pv.phaseoli and Xanthomonas fuscans subsp.fuscans,EFSA J.12(2014)3856.
[9]A.Darrasse,S.Carrère,V.Barbe,T.Boureau,M.L.ArrietaOrtiz,S.Bonneau,M.Briand,C.Brin,S.Cociancich,K.Durand,S.Fouteau,L.Gagnevin,F.Guérin,E.Guy,A.Indiana,R.Koebnik,E.Lauber,A.Munoz,L.D.No?l,I.Pieretti,S.Poussier,O.Pruvost,I.Robène-Soustrade,P.Rott,M.Royer,L.SerresGiardi,B.Szurek,M.A.van Sluys,V.Verdier,C.Vernière,M.Arlat,C.Manceau,M.A.Jacques,Genome sequence of Xanthomonas fuscans subsp.fuscans strain 4834-R reveals that flagellar motility is not a general feature of Xanthomonads,BMC Genomics 14(2013)761.
[10]L.Vauterin,B.Hoste,K.Kersters,J.Swings,Reclassification of Xanthomonas,Int.J.Syst.Bacteriol.45(1995)472-489.
[11]S.M.Alavi,S.Sanjari,F.Durand,C.Brin,C.Manceau,S.Poussier,Assessment of the genetic diversity of Xanthomonas axonopodis pv.phaseoli and Xanthomonas fuscans subsp.fuscans as a basis to identify putative pathogenicity genes and a type III secretion system of the SPI-1 family by multiple suppression subtractive hybridization,Appl.Environ.Microbiol.74(2008)3295-3301.
[12]Z.Zamani,M.Bahr,M.A.Jaques,M.R.Lak,A.Akhavan,Genetic diversity of the common bacterial blight pathogen of bean,Xanthomonas axonopodis pv.phaseoli in Iran revealed by rep-PCR,World J.Microbiol.Biotechnol.27(2011)2371-2378.
[13]R.López,C.Asensio,R.L.Gilbertson,Phenotypic and genetic diversity in strains of common blight bacteria(Xanthomonas campestris pv.phaseoli and X.campestris pv.phaseoli var.fuscans)in a secondary center of diversity of the common bean host suggests multiple introduction events,Phytopathology 96(2006)1204-1213.
[14]R.W.Duncan,S.P.Singh,R.L.Gilbertson,Interaction of common bacterial blight bacteria with disease resistance quantitative trait loci in common bean,Phytopathology 101(2011)425-435.
[15]V.Aritua,J.Harrison,M.Sapp,R.Buruchara,J.Smith,D.J.Studholme,Genome sequencing reveals a new lineage associated with lablab bean and genetic exchange between Xanthomonas axonopodis pv.phaseoli and Xanthomonas fuscans subsp.fuscans,Front.Microbiol.6(2015)1080.
[16]E.C.Constantin,I.Cleenwerc,M.Maes,S.Baeyen,C.van Malderghem,P.de Vos,B.Cottyn,Genetic characterisation of strains named as Xanthomonas axonopodis pv.dieffenbachiae leads to a taxonomic revision of Xanthomonas genus,Plant Pathol.65(2016)792-806.
[17]R.P.Ryan,F.J.Vorh?lter,N.Potnis,J.B.Jones,M.A.van Sluys,A.J.Bogdanove,J.M.Dow,Pathogenomics of Xanthomonas:understanding bacterium-plant interactions,Nat.Rev.Microbiol.9(2011)344-355.
[18]B.S.Garavaglia,L.Thomas,T.Zimaro,N.Gottig,L.D.Daurelio,B.Ndimba,E.G.Orellano,J.Ottado,C.Gehring,A plant natriuretic peptide-like molecule of the pathogen Xanthomonas axonopodis pv.citri causes rapid changes in the proteome of its citrus host,BMC Plant Biol.10(2010)51.
[19]V.Aritua,D.Achor,F.G.Gmitter,G.Albrigo,N.Wang,Transcriptional and microscopic analyses of citrus stem and root responses to Candidatus Liberibacter asiaticus infection,PLoS One 8(2013),e73742..
[20]K.Wang,M.Senthil-Kumar,C.M.Ryu,L.Kang,K.S.Mysore,Phytosterols play a key role in plant innate immunity against bacterial pathogens by regulating nutrient efflux into the apoplast,Plant Physiol.158(2012)1789-1802.
[21]N.Mutlu,A.K.Vidaver,D.P.Coyne,J.R.Steadman,P.A.Lambrecht,J.Reiser,Differential pathogenicity of Xanthomonas campestris pv.phaseoli and X.fuscans subsp.fuscans strains on bean genotypes with common blight resistance,Plant Dis.92(2008)546-554.
[22]A.F.Opio,D.J.Allen,J.M.Teri,Pathogenic variation in Xanthomonas campestris pv.phaseoli,the causal agent of common bacterial blight in Phaseolus beans,Plant Pathol.45(1996)1126-1133.
[23]D.M.Viteri,P.B.Cregan,J.J.Trapp,P.N.Miklas,S.P.Singh,Anew common bacterial blight resistance QTL in VAX 1common bean and interaction of the new QTL,SAP6,and SU91 with bacterial strains,Crop Sci.54(2014)1598-1608.
[24]B.M.E.Alladassi,S.T.Nkalubo,C.Mukankusi,E.S.Mwale,P.Gibson,R.Edema,C.A.Urrea,J.D.Kelly,P.R.Rubaihayo,Inheritance of resistance to common bacterial blight in four selected common bean(Phaseolus vulgaris L.)genotypes,J.Plant Breed.Crop Sci.9(2017)71-78.
[25]D.Fourie,L.Herselman,Pathogenic and genetic variation in Xanthomonas axonopodis pv.phaseoli and its fuscans variant in Southern Africa,Afr.Crop.Sci.J.19(2011)393-407.
[26]G.J.Vandemark,D.Fourie,P.N.Miklas,Genotyping with realtime PCR reveals recessive epistasis between independent QTL conferring resistance to common bacterial blight in dry bean,Theor.Appl.Genet.117(2008)513-522.
[27]N.Mutlu,P.N.Miklas,J.R.Steadman,A.M.Vidaver,D.T.Lindgren,D.P.Coyne,J.Reiser,M.A.Pator-Corrales,Registration of common bacterial blight resistant pinto bean germplasm line ABCP-8,Crop Sci.45(2005)806-807.
[28]P.N.Miklas,J.R.Smith,S.P.Singh,Registration of common bacterial blight resistant dark red kidney bean germplasm line USDK-CBB-15,Crop Sci.46(2006)1005-1006.
[29]P.N.Miklas,J.R.Smith,S.P.Singh,Registration of common bacterial blight resistant white kidney bean germplasm line USWK-CBB-17,Crop Sci.46(2006)2338-2339.
[30]P.N.Miklas,S.P.Singh,H.Teran,J.D.Kelly,J.R.Smith,Registration of common bacterial blight resistant cranberry dry bean germplasm line USCR-CBB-20,J.Plant Regist.5(2011)98-102.
[31]D.M.Viteri,H.Terán,M.C.Asensio-S.-Manzanera,C.Asensio,T.G.Porch,P.N.Miklas,S.P.Singh,Progress in breeding Andean common bean for resistance to common bacterial blight,Crop Sci.54(2014)2084-2092.
[32]G.J.Vandemark,D.Fourie,R.C.Larsen,P.N.Miklas,Interactions between QTL SAP6 and SU91 on resistance to common bacterial blight in red kidney bean and pinto bean populations,Euphytica 170(2009)371-381.
[33]R.Rodrigues,N.R.Leal,M.G.Pereira,A.Lam-Sánchez,Combining ability of Phaseolus vulgaris L.for resistance to common bacterial blight,Genet.Mol.Biol.22(1999)571-575.
[34]C.Shi,S.Chaudhary,K.Yu,S.J.Park,A.Navabi,P.E.McClean,Identification of candidate genes associated with CBB resistance in common bean HR45(Phaseolus vulgaris L.)using cDNA-AFLP,Mol.Biol.Rep.38(2011)75-81.
[35]Z.Liu,J.P.Yan,D.K.Li,Q.Luo,Q.J.Yan,Z.B.Liu,L.M.Ye,J.M.Wang,X.F.Li,Y.Yang,UDP-Glucosyltransferase71C5,a major glucosyltransferase,mediates abscisic acid homeostasis in Arabidopsis,Plant Physiol.167(2015)1659-1670.
[36]G.Perry,C.Dinatale,W.L.Xie,A.Navabi,Y.Reinprecht,W.Crosby,K.F.Yu,C.Shi,K.P.Pauls Chun,A comparison of the molecular organization of genomic regions associated with resistance to common bacterial blight in two Phaseolus vulgaris genotypes,Front.Plant Sci.4(2013)318.
[37]D.M.Cooper,Identification and characterization of Common Bacterial Blight Resistance Genes in the Resistant Common Bean(Phaseolus vulgaris)Variety OAC Rex,Master thesis The University of Guelph,Guelph,Ontario,Canada,2015.
[38]J.Zhu,J.Wu,L.Wang,M.W.Blair,Z.Zhu,S.Wang,QTL and candidate genes associated with common bacterial blight resistance in the common bean cultivar Longyundou 5 from China,Crop J.4(2016)344-352.
[39]J.D.Lobaton,T.Miller,J.Gil,D.Ariza,J.F.de la Hoz,A.Soler,S.Beebe,J.Duitama,P.Gepts,B.Raatz,Resequencing of common bean identifies regions of inter-gene pool introgression and provides comprehensive resources for molecular breeding,Plant Genomes 11(2018),170068..
[40]J.Schmutz,P.E.McClean,S.Mamidi,G.A.Wu,S.B.Cannon,J.Grimwood,J.Jenkins,S.Shu,Q.Song,C.Chavarro,M.TorresTorres,V.Geffroy,S.M.Moghaddam,D.Gao,B.Abernathy,K.Barry,M.Blair,M.A.Brick,M.Chovatia,P.Gepts,D.M.Goodstein,M.Gonzales,U.Hellsten,D.L.Hyten,G.Jia,J.D.Kelly,D.Kudrna,R.Lee,M.M.S.Richard,P.N.Miklas,J.M.Osorno,J.Rodrigues,V.Thareau,C.A.Urrea,M.Wang,Y.Yu,M.Zhang,R.A.Wing,P.B.Cregan,D.S.Rokhsar,S.A.Jackson,A reference genome for common bean and genome-wide analysis of dual domestications,Nat.Genet.46(2014)707-713.
[2]J.G.Boersma,A.Hou,C.L.Gillard,K.B.McRae,R.L.Conner,Impact of common bacterial blight on the yield,seed weight and seed discoloration of different market classes of dry beans(Phaseolus vulgaris L.),Can.J.Plant Sci.95(2015)703-710.
[3]P.N.Miklas,D.Fourie,B.Chaves,C.Chirembe,Common bacterial blight resistance QTL BC420 and SU91 effect on seed yield,Crop Sci.57(2017)802-811.
[4]J.J.Rodríguez De Luque,B.Creamer,Major constraints and trends for common bean production and commercialization;establishing priorities for future research,Agron.Colomb.32(2015)423-431.
[5]A.Akhavan,M.Bahar,H.Askarian,M.R.Lak,A.Nazemi,Z.Zamani,Bean common bacterial blight:pathogen epiphytic life and effect of irrigation practices,Springerplus 2(2013)41.
[6]A.Darrasse,C.Bureau,R.Samson,C.E.Morris,M.A.Jacques,Contamination of bean seeds by Xanthomonas axonopodis pv.phaseoli associated with low bacterial densities in the phyllosphere under field and greenhouse conditions,Eur.J.Plant Pathol.119(2007)203-215.
[7]A.F.Opio,J.M.Teri,D.J.Allen,Assessment of yield losses caused by common bacterial blight of beans in Uganda,Annual Report of Bean Improvement Cooperative,vol.35,1992,pp.113-114.
[8]EFSA Panel on Plant Health(PLH),Scientific opinion on the pest categorisation of Xanthomonas axonopodis pv.phaseoli and Xanthomonas fuscans subsp.fuscans,EFSA J.12(2014)3856.
[9]A.Darrasse,S.Carrère,V.Barbe,T.Boureau,M.L.ArrietaOrtiz,S.Bonneau,M.Briand,C.Brin,S.Cociancich,K.Durand,S.Fouteau,L.Gagnevin,F.Guérin,E.Guy,A.Indiana,R.Koebnik,E.Lauber,A.Munoz,L.D.No?l,I.Pieretti,S.Poussier,O.Pruvost,I.Robène-Soustrade,P.Rott,M.Royer,L.SerresGiardi,B.Szurek,M.A.van Sluys,V.Verdier,C.Vernière,M.Arlat,C.Manceau,M.A.Jacques,Genome sequence of Xanthomonas fuscans subsp.fuscans strain 4834-R reveals that flagellar motility is not a general feature of Xanthomonads,BMC Genomics 14(2013)761.
[10]L.Vauterin,B.Hoste,K.Kersters,J.Swings,Reclassification of Xanthomonas,Int.J.Syst.Bacteriol.45(1995)472-489.
[11]S.M.Alavi,S.Sanjari,F.Durand,C.Brin,C.Manceau,S.Poussier,Assessment of the genetic diversity of Xanthomonas axonopodis pv.phaseoli and Xanthomonas fuscans subsp.fuscans as a basis to identify putative pathogenicity genes and a type III secretion system of the SPI-1 family by multiple suppression subtractive hybridization,Appl.Environ.Microbiol.74(2008)3295-3301.
[12]Z.Zamani,M.Bahr,M.A.Jaques,M.R.Lak,A.Akhavan,Genetic diversity of the common bacterial blight pathogen of bean,Xanthomonas axonopodis pv.phaseoli in Iran revealed by rep-PCR,World J.Microbiol.Biotechnol.27(2011)2371-2378.
[13]R.López,C.Asensio,R.L.Gilbertson,Phenotypic and genetic diversity in strains of common blight bacteria(Xanthomonas campestris pv.phaseoli and X.campestris pv.phaseoli var.fuscans)in a secondary center of diversity of the common bean host suggests multiple introduction events,Phytopathology 96(2006)1204-1213.
[14]R.W.Duncan,S.P.Singh,R.L.Gilbertson,Interaction of common bacterial blight bacteria with disease resistance quantitative trait loci in common bean,Phytopathology 101(2011)425-435.
[15]V.Aritua,J.Harrison,M.Sapp,R.Buruchara,J.Smith,D.J.Studholme,Genome sequencing reveals a new lineage associated with lablab bean and genetic exchange between Xanthomonas axonopodis pv.phaseoli and Xanthomonas fuscans subsp.fuscans,Front.Microbiol.6(2015)1080.
[16]E.C.Constantin,I.Cleenwerc,M.Maes,S.Baeyen,C.van Malderghem,P.de Vos,B.Cottyn,Genetic characterisation of strains named as Xanthomonas axonopodis pv.dieffenbachiae leads to a taxonomic revision of Xanthomonas genus,Plant Pathol.65(2016)792-806.
[17]R.P.Ryan,F.J.Vorh?lter,N.Potnis,J.B.Jones,M.A.van Sluys,A.J.Bogdanove,J.M.Dow,Pathogenomics of Xanthomonas:understanding bacterium-plant interactions,Nat.Rev.Microbiol.9(2011)344-355.
[18]B.S.Garavaglia,L.Thomas,T.Zimaro,N.Gottig,L.D.Daurelio,B.Ndimba,E.G.Orellano,J.Ottado,C.Gehring,A plant natriuretic peptide-like molecule of the pathogen Xanthomonas axonopodis pv.citri causes rapid changes in the proteome of its citrus host,BMC Plant Biol.10(2010)51.
[19]V.Aritua,D.Achor,F.G.Gmitter,G.Albrigo,N.Wang,Transcriptional and microscopic analyses of citrus stem and root responses to Candidatus Liberibacter asiaticus infection,PLoS One 8(2013),e73742..
[20]K.Wang,M.Senthil-Kumar,C.M.Ryu,L.Kang,K.S.Mysore,Phytosterols play a key role in plant innate immunity against bacterial pathogens by regulating nutrient efflux into the apoplast,Plant Physiol.158(2012)1789-1802.
[21]N.Mutlu,A.K.Vidaver,D.P.Coyne,J.R.Steadman,P.A.Lambrecht,J.Reiser,Differential pathogenicity of Xanthomonas campestris pv.phaseoli and X.fuscans subsp.fuscans strains on bean genotypes with common blight resistance,Plant Dis.92(2008)546-554.
[22]A.F.Opio,D.J.Allen,J.M.Teri,Pathogenic variation in Xanthomonas campestris pv.phaseoli,the causal agent of common bacterial blight in Phaseolus beans,Plant Pathol.45(1996)1126-1133.
[23]D.M.Viteri,P.B.Cregan,J.J.Trapp,P.N.Miklas,S.P.Singh,Anew common bacterial blight resistance QTL in VAX 1common bean and interaction of the new QTL,SAP6,and SU91 with bacterial strains,Crop Sci.54(2014)1598-1608.
[24]B.M.E.Alladassi,S.T.Nkalubo,C.Mukankusi,E.S.Mwale,P.Gibson,R.Edema,C.A.Urrea,J.D.Kelly,P.R.Rubaihayo,Inheritance of resistance to common bacterial blight in four selected common bean(Phaseolus vulgaris L.)genotypes,J.Plant Breed.Crop Sci.9(2017)71-78.
[25]D.Fourie,L.Herselman,Pathogenic and genetic variation in Xanthomonas axonopodis pv.phaseoli and its fuscans variant in Southern Africa,Afr.Crop.Sci.J.19(2011)393-407.
[26]G.J.Vandemark,D.Fourie,P.N.Miklas,Genotyping with realtime PCR reveals recessive epistasis between independent QTL conferring resistance to common bacterial blight in dry bean,Theor.Appl.Genet.117(2008)513-522.
[27]N.Mutlu,P.N.Miklas,J.R.Steadman,A.M.Vidaver,D.T.Lindgren,D.P.Coyne,J.Reiser,M.A.Pator-Corrales,Registration of common bacterial blight resistant pinto bean germplasm line ABCP-8,Crop Sci.45(2005)806-807.
[28]P.N.Miklas,J.R.Smith,S.P.Singh,Registration of common bacterial blight resistant dark red kidney bean germplasm line USDK-CBB-15,Crop Sci.46(2006)1005-1006.
[29]P.N.Miklas,J.R.Smith,S.P.Singh,Registration of common bacterial blight resistant white kidney bean germplasm line USWK-CBB-17,Crop Sci.46(2006)2338-2339.
[30]P.N.Miklas,S.P.Singh,H.Teran,J.D.Kelly,J.R.Smith,Registration of common bacterial blight resistant cranberry dry bean germplasm line USCR-CBB-20,J.Plant Regist.5(2011)98-102.
[31]D.M.Viteri,H.Terán,M.C.Asensio-S.-Manzanera,C.Asensio,T.G.Porch,P.N.Miklas,S.P.Singh,Progress in breeding Andean common bean for resistance to common bacterial blight,Crop Sci.54(2014)2084-2092.
[32]G.J.Vandemark,D.Fourie,R.C.Larsen,P.N.Miklas,Interactions between QTL SAP6 and SU91 on resistance to common bacterial blight in red kidney bean and pinto bean populations,Euphytica 170(2009)371-381.
[33]R.Rodrigues,N.R.Leal,M.G.Pereira,A.Lam-Sánchez,Combining ability of Phaseolus vulgaris L.for resistance to common bacterial blight,Genet.Mol.Biol.22(1999)571-575.
[34]C.Shi,S.Chaudhary,K.Yu,S.J.Park,A.Navabi,P.E.McClean,Identification of candidate genes associated with CBB resistance in common bean HR45(Phaseolus vulgaris L.)using cDNA-AFLP,Mol.Biol.Rep.38(2011)75-81.
[35]Z.Liu,J.P.Yan,D.K.Li,Q.Luo,Q.J.Yan,Z.B.Liu,L.M.Ye,J.M.Wang,X.F.Li,Y.Yang,UDP-Glucosyltransferase71C5,a major glucosyltransferase,mediates abscisic acid homeostasis in Arabidopsis,Plant Physiol.167(2015)1659-1670.
[36]G.Perry,C.Dinatale,W.L.Xie,A.Navabi,Y.Reinprecht,W.Crosby,K.F.Yu,C.Shi,K.P.Pauls Chun,A comparison of the molecular organization of genomic regions associated with resistance to common bacterial blight in two Phaseolus vulgaris genotypes,Front.Plant Sci.4(2013)318.
[37]D.M.Cooper,Identification and characterization of Common Bacterial Blight Resistance Genes in the Resistant Common Bean(Phaseolus vulgaris)Variety OAC Rex,Master thesis The University of Guelph,Guelph,Ontario,Canada,2015.
[38]J.Zhu,J.Wu,L.Wang,M.W.Blair,Z.Zhu,S.Wang,QTL and candidate genes associated with common bacterial blight resistance in the common bean cultivar Longyundou 5 from China,Crop J.4(2016)344-352.
[39]J.D.Lobaton,T.Miller,J.Gil,D.Ariza,J.F.de la Hoz,A.Soler,S.Beebe,J.Duitama,P.Gepts,B.Raatz,Resequencing of common bean identifies regions of inter-gene pool introgression and provides comprehensive resources for molecular breeding,Plant Genomes 11(2018),170068..
[40]J.Schmutz,P.E.McClean,S.Mamidi,G.A.Wu,S.B.Cannon,J.Grimwood,J.Jenkins,S.Shu,Q.Song,C.Chavarro,M.TorresTorres,V.Geffroy,S.M.Moghaddam,D.Gao,B.Abernathy,K.Barry,M.Blair,M.A.Brick,M.Chovatia,P.Gepts,D.M.Goodstein,M.Gonzales,U.Hellsten,D.L.Hyten,G.Jia,J.D.Kelly,D.Kudrna,R.Lee,M.M.S.Richard,P.N.Miklas,J.M.Osorno,J.Rodrigues,V.Thareau,C.A.Urrea,M.Wang,Y.Yu,M.Zhang,R.A.Wing,P.B.Cregan,D.S.Rokhsar,S.A.Jackson,A reference genome for common bean and genome-wide analysis of dual domestications,Nat.Genet.46(2014)707-713.