甜高粱病虫草害抗耐性遗传改良研究进展
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摘要
回顾了世界上甜高粱病虫草害抗耐性的遗传改良研究与应用进展,为遗传改良有利于甜高粱生物燃料生产的抗耐病虫草害品种提供参考。
The research and application progress on genetic improvement of sweet sorghum resistance to disease,pest and weed stress in the world were reviewed, so as to provide references for biofuel production of sweet sorghum through genetic improvement of disease, pests and weed resistant.
The research and application progress on genetic improvement of sweet sorghum resistance to disease,pest and weed stress in the world were reviewed, so as to provide references for biofuel production of sweet sorghum through genetic improvement of disease, pests and weed resistant.
引文
[1]William Rooney.Sorghum as a Bioenergy Feedstock Types,Design and Development[EB/OL].http://fenalce.org/archivos/Sor Fee.pdf.
[2]孙炀,张文彬.甜高粱主要病虫害及其防治[J].中国糖料,2010,32(4):46-49.
[3]CS Guo,W Cui,X Feng,JZ Zhao,GH Lu.Sorghum insect problems and management[J].Journal of Integrative Plant Biology,2011,53(3):178-192
[4]Anami,S.E.,L.M.Zhang,Y.Xia,Y.M.Zhang,Z.Q.Liu,and H.C.Jing.Sweet sorghum ideotypes:genetic improvement of stress tolerance[J].Food and Energy Security,2015,4(1):3-24.
[5]Perumal,R.,M.A.Menz,P.J.Mehta,S.Katile,L.A.Gutierrez-Rojas,R.R.Klein,et al.Molecular mapping of Cg1,a gene for resistance to anthracnose(Colletotrichum sublineolum)in sorghum[J].Euphytica,2009,165(3):597-606.
[6]Akosambo-Ayoo,L.,M.Bader,H.Loerz,and D.Becker.Transgenic sorghum(Sorghum bicolor L.Moench)developed by transformation with chitinase and chitosanase genes from Trichoderma harzianum expresses tolerance to anthracnose[J].Afr.J.Biotechnol.,2013,10(19):3659-3670.
[7]Upadhyaya,H.D.,Y.-H.Wang,R.Sharma,and S.Sharma.Identification of genetic markers linked to anthracnose resistance in sorghum using association analysis[J].Theor.Appl.Genet.,2013,126(6):1649-1657.
[8]Wang,Z.X.,M.Yano,U.Yamanouchi,M.Iwamoto,L.Monna,H.Hayasaka,et al.The Pib gene for rice blast resistance belongs to the nucleotide binding and leucine-rich repeat class of plant disease resistance genes[J].Plant J.,1999,19(1):55-64.
[9]Liu,Y.,M.Schiff,K.Czymmek,Z.Tallóczy,B.Levine,and S.Dinesh-Kumar.Autophagy regulates programmed cell death during the plant innate immune response[J].Cell,2005,121(4):567-577.
[10]Pontier,D.,S.Gan,R.M.Amasino,D.Roby,and E.Lam.Markers for hypersensitive response and senescence show distinct patterns of expression[J].Plant Mol.Biol.,1999,39(6):1243-1255.
[11]Bueso,F.J.,R.D.Waniska,W.L.Rooney,and F.P.Bejosano.Activity of antifungal proteins against mold in sorghum caryopses in the field[J].J.Agric.Food Chem.,2000,48(3):810-816.
[12]Singh,M.,K.Chaudhary,H.Singal,C.Magill,and K.Boora.Identification and characterization of RAPD and SCAR markers linked to anthracnose resistance gene in sorghum[Sorghum bicolor(L.)Moench][J].Euphytica,2006,149(1-2):179-187.
[13]Mohan,S.,R.Madhusudhana,K.Mathur,C.Howarth,G.Srinivas,K.Satish,et al.Co-localization of quantitative trait loci for foliar disease resistance in sorghum[J].Plant Breeding,2009,128:532-535.
[14]Baroncelli,R.,J.M.Sanz-Martín,G.E.Rech,S.A.Sukno,and M.R.Thon.Draft genome sequence of Colletotrichum sublineola,a destructive pathogen of cultivated sorghum[J].Genome Announc.,2014,2(3):e00540-14
[15]Reddy,P.S.,B.Fakrudin,S.Punnuri,S.Arun,M.Kuruvinashetti,I.Das,et al.Molecular mapping of genomic regions harboring QTLs for stalk rot resistance in sorghum[J].Euphytica,2008,159(1):191-198.
[16]Nagy,E.D.,T.-C.Lee,W.Ramakrishna,Z.Xu,P.E.Klein,P.Sanmiguel,et al.Fine mapping of the Pc locus of Sorghum bicolor,a gene controlling the reaction to a fungal pathogen and its host-selective toxin[J].Theor.Appl.Genet.,2007,114(6):961-970.
[17]Krishnaveni,S.,J.Joeung,S.Muthukrishnan,and G.Liang.Transgenic sorghum plants constitutively expressing a rice chitinase gene show improved resistance to stalk rot[J].J.Genet.Breed.,2001,55:151-158.
[18]Parh,D.,D.Jordan,E.Aitken,E.Mace,P.Jun-Ai,C.Mc Intyre,et al.QTL analysis of ergot resistance in sorghum[J].Theor.Appl.Genet.,2008,117(3):369-382.
[19]Visarada,K.,and N.Kishore.Improvement of Sorghum through transgenic technology.Information System for Biotechnology News Report(Virginia tech,US),2007:1-3.
[20]Sharma,H.C.,K.K.Sharma,and J.H.Crouch.Genetic transformation of crops for insect resistance:potential and limitations[J].Crit.Rev.Plant Sci.,2004,23(1):47-72.
[21]Girijashankar,V.,H.Sharma,K.K.Sharma,V.Swathisree,L.S.Prasad,B.Bhat,et al.Development of transgenic sorghum for insect resistance against the spotted stem borer(Chilo partellus)[J].Plant Cell Rep.,2005,24(9):513-522.
[22]Zhang,M.,Q.Tang,Z.Chen,J.Liu,H.Cui,Q.Shu,et al.Genetic transformation of Bt gene into sorghum(Sorghum bicolor L.)mediated by Agrobacterium tumefaciens[J].Chin.J.Biotechnol.,2009,25(3):418-423.
[23]Tao,Y.,A.Hardy,J.Drenth,R.Henzell,B.Franzmann,D.Jordan,et al.Identifications of two different mechanisms for sorghum midge resistance through QTL mapping[J].Theor.Appl.Genet.,2003,107(1):116-122.
[24]Sama,V.,N.Rawat,R.Sundaram,K.Himabindu,B.S.Naik,B.Viraktamath,et al.A putative candidate for the recessive gall midge resistance gene gm3 in rice identified and validated[J].Theor.Appl.Genet.,2014,127(1):113-124.
[25]Punnuri,S.,Y.Huang,J.Steets,and Y.Wu.Developing new markers and QTL mapping for greenbug resistance in sorghum[Sorghum bicolor(L.)Moench][J].Euphytica,2013,191(2):191-203.
[26]Deu,M.,A.Ratnadass,M.Hamada,J.Noyer,M.Diabatedagger,and J.Chantereau.Short Communication-Quantitative trait loci for head-bug resistance in sorghum[J].Afr.J.Biotechnol.,2005,4(3):247-250.
[27]Feltus,F.,G.Hart,K.Schertz,A.Casa,S.Kresovich,S.Abraham,et al.Alignment of genetic maps and QTLs between inter-and intra-specific sorghum populations[J].Theor.Appl.Genet.,2006,112(7):1295-1305.
[28]Aruna,C.,V.Bhagwat,R.Madhusudhana,V.Sharma,T.Hussain,R.Ghorade,et al.Identification and validation of genomic regions that affect shoot fly resistance in sorghum[Sorghum bicolor(L.)Moench][J].Theor.Appl.Genet.,2011,122(8):1617-1630.
[29]Satish,K.,G.Srinivas,R.Madhusudhana,P.Padmaja,R.N.Reddy,S.M.Mohan,et al.Identification of quantitative trait loci for resistance to shoot fly in sorghum[Sorghum bicolor(L.)Moench][J].Theor.Appl.Genet.,2009,119(8):1425-1439.
[30]Parker,C.Observations on the current status of Orobanche and Striga problems worldwide[J].Pest Manag.Sci.,2009,65(5):453-459.
[31]Tuinstra,M.R.,S.Soumana,K.Al-Khatib,I.Kapran,A.Toure,A.van Ast,et al.Efficacy of herbicide seed treatments for controlling infestation of sorghum[J].Crop Sci.,2009,49(3):923-929.
[32]Aly,R.,H.Cholakh,D.M.Joel,D.Leibman,B.Steinitz,A.Zelcer,et al.Gene silencing of mannose 6-phosphate reductase in the parasitic weed Orobanche aegyptiaca through the production of homologous ds RNA sequences in the host plant[J].Plant Biotechnol.J.,2009,7:487-498.
[33]Haussmann,B.,D.Hess,G.Omanya,R.Folkertsma,B.Reddy,M.Kayentao,et al.Genomic regions influencing resistance to the parasitic weed Striga hermonthica in two recombinant inbred populations of sorghum[J].Theor.Appl.Genet.,2004,109:1005-1016.
[34]Jamann,T.M.,J.A.Poland,J.M.Kolkman,L.G.Smith,and R.J.Nelson.Unraveling genomic complexity at a quantitative disease resistance locus in Maize[J].Genetics,2014,198(1):333-344.
[35]Duke,S.O.,and S.B.Powles.Glyphosate:a once-in-a-century herbicide[J].Pest Manag.Sci.,2008,64(4):319-325.
[36]Yu,Q.,and S.B.Powles.Metabolism-based herbicide resistance and cross-resistance in crop weeds:a threat to herbicide sustainability and global crop production[J].Plant Physiol.,2014,166:1106-1118.
[37]Wright,T.R.,G.Shan,T.A.Walsh,J.M.Lira,C.Cui,P.Song,et al.Robust crop resistance to broadleaf and grass herbicides provided by aryloxyalkanoate dioxygenase transgenes[J].Proc.Natl Acad.Sci.,2010,107(47):20240-20245.
[38]Gressel,J.,and A.A.Levy.Use of multi-copy transposons bearing unfitness genes in weed control:four example scenarios[J].Plant Physiol.,2014,166:1221-1231.
[39]Sammons,D.R.,D.Wang,P.Morris,B.Duncan,G.Griffith,and D.Findley.Strategies for countering herbicide resistance.//TM Hammad:Abstracts of papers of the American Chemical Society[D].Amer Chemical Soc 1155 16TH ST,NW,Washington,DC 20036 USA,2012.
[40]López-Arredondo,D.L.,and L.Herrera-Estrella.Engineering phosphorus metabolism in plants to produce a dual fertilization and weed control system[J].Nat.Biotechnol.,2012,30(9):889-893.
[41]Heap,I.Global perspective of herbicide-resistant weeds.Pest Manag.Sci.,2014,70:1306-1315.
[42]Mutegi,E.,F.Sagnard,M.Muraya,B.Kanyenji,B.Rono,C.Mwongera,et al.Ecogeographical distribution of wild,weedy and cultivated Sorghum bicolor(L.)Moench in Kenya:implications for conservation and crop-to-wild gene flow[J].Genet.Resour.Crop Evol.,2010,57:243-253.
[43]Washburn,J.D.,S.C.Murray,B.L.Burson,R.R.Klein,and R.W.Jessup.Targeted mapping of quantitative trait locus regions for rhizomatousness in chromosome SBI-01 and analysis of overwintering in a Sorghum bicolor×S.propinquum population[J].Mol.Breeding,2013,31(1):153-162.
[2]孙炀,张文彬.甜高粱主要病虫害及其防治[J].中国糖料,2010,32(4):46-49.
[3]CS Guo,W Cui,X Feng,JZ Zhao,GH Lu.Sorghum insect problems and management[J].Journal of Integrative Plant Biology,2011,53(3):178-192
[4]Anami,S.E.,L.M.Zhang,Y.Xia,Y.M.Zhang,Z.Q.Liu,and H.C.Jing.Sweet sorghum ideotypes:genetic improvement of stress tolerance[J].Food and Energy Security,2015,4(1):3-24.
[5]Perumal,R.,M.A.Menz,P.J.Mehta,S.Katile,L.A.Gutierrez-Rojas,R.R.Klein,et al.Molecular mapping of Cg1,a gene for resistance to anthracnose(Colletotrichum sublineolum)in sorghum[J].Euphytica,2009,165(3):597-606.
[6]Akosambo-Ayoo,L.,M.Bader,H.Loerz,and D.Becker.Transgenic sorghum(Sorghum bicolor L.Moench)developed by transformation with chitinase and chitosanase genes from Trichoderma harzianum expresses tolerance to anthracnose[J].Afr.J.Biotechnol.,2013,10(19):3659-3670.
[7]Upadhyaya,H.D.,Y.-H.Wang,R.Sharma,and S.Sharma.Identification of genetic markers linked to anthracnose resistance in sorghum using association analysis[J].Theor.Appl.Genet.,2013,126(6):1649-1657.
[8]Wang,Z.X.,M.Yano,U.Yamanouchi,M.Iwamoto,L.Monna,H.Hayasaka,et al.The Pib gene for rice blast resistance belongs to the nucleotide binding and leucine-rich repeat class of plant disease resistance genes[J].Plant J.,1999,19(1):55-64.
[9]Liu,Y.,M.Schiff,K.Czymmek,Z.Tallóczy,B.Levine,and S.Dinesh-Kumar.Autophagy regulates programmed cell death during the plant innate immune response[J].Cell,2005,121(4):567-577.
[10]Pontier,D.,S.Gan,R.M.Amasino,D.Roby,and E.Lam.Markers for hypersensitive response and senescence show distinct patterns of expression[J].Plant Mol.Biol.,1999,39(6):1243-1255.
[11]Bueso,F.J.,R.D.Waniska,W.L.Rooney,and F.P.Bejosano.Activity of antifungal proteins against mold in sorghum caryopses in the field[J].J.Agric.Food Chem.,2000,48(3):810-816.
[12]Singh,M.,K.Chaudhary,H.Singal,C.Magill,and K.Boora.Identification and characterization of RAPD and SCAR markers linked to anthracnose resistance gene in sorghum[Sorghum bicolor(L.)Moench][J].Euphytica,2006,149(1-2):179-187.
[13]Mohan,S.,R.Madhusudhana,K.Mathur,C.Howarth,G.Srinivas,K.Satish,et al.Co-localization of quantitative trait loci for foliar disease resistance in sorghum[J].Plant Breeding,2009,128:532-535.
[14]Baroncelli,R.,J.M.Sanz-Martín,G.E.Rech,S.A.Sukno,and M.R.Thon.Draft genome sequence of Colletotrichum sublineola,a destructive pathogen of cultivated sorghum[J].Genome Announc.,2014,2(3):e00540-14
[15]Reddy,P.S.,B.Fakrudin,S.Punnuri,S.Arun,M.Kuruvinashetti,I.Das,et al.Molecular mapping of genomic regions harboring QTLs for stalk rot resistance in sorghum[J].Euphytica,2008,159(1):191-198.
[16]Nagy,E.D.,T.-C.Lee,W.Ramakrishna,Z.Xu,P.E.Klein,P.Sanmiguel,et al.Fine mapping of the Pc locus of Sorghum bicolor,a gene controlling the reaction to a fungal pathogen and its host-selective toxin[J].Theor.Appl.Genet.,2007,114(6):961-970.
[17]Krishnaveni,S.,J.Joeung,S.Muthukrishnan,and G.Liang.Transgenic sorghum plants constitutively expressing a rice chitinase gene show improved resistance to stalk rot[J].J.Genet.Breed.,2001,55:151-158.
[18]Parh,D.,D.Jordan,E.Aitken,E.Mace,P.Jun-Ai,C.Mc Intyre,et al.QTL analysis of ergot resistance in sorghum[J].Theor.Appl.Genet.,2008,117(3):369-382.
[19]Visarada,K.,and N.Kishore.Improvement of Sorghum through transgenic technology.Information System for Biotechnology News Report(Virginia tech,US),2007:1-3.
[20]Sharma,H.C.,K.K.Sharma,and J.H.Crouch.Genetic transformation of crops for insect resistance:potential and limitations[J].Crit.Rev.Plant Sci.,2004,23(1):47-72.
[21]Girijashankar,V.,H.Sharma,K.K.Sharma,V.Swathisree,L.S.Prasad,B.Bhat,et al.Development of transgenic sorghum for insect resistance against the spotted stem borer(Chilo partellus)[J].Plant Cell Rep.,2005,24(9):513-522.
[22]Zhang,M.,Q.Tang,Z.Chen,J.Liu,H.Cui,Q.Shu,et al.Genetic transformation of Bt gene into sorghum(Sorghum bicolor L.)mediated by Agrobacterium tumefaciens[J].Chin.J.Biotechnol.,2009,25(3):418-423.
[23]Tao,Y.,A.Hardy,J.Drenth,R.Henzell,B.Franzmann,D.Jordan,et al.Identifications of two different mechanisms for sorghum midge resistance through QTL mapping[J].Theor.Appl.Genet.,2003,107(1):116-122.
[24]Sama,V.,N.Rawat,R.Sundaram,K.Himabindu,B.S.Naik,B.Viraktamath,et al.A putative candidate for the recessive gall midge resistance gene gm3 in rice identified and validated[J].Theor.Appl.Genet.,2014,127(1):113-124.
[25]Punnuri,S.,Y.Huang,J.Steets,and Y.Wu.Developing new markers and QTL mapping for greenbug resistance in sorghum[Sorghum bicolor(L.)Moench][J].Euphytica,2013,191(2):191-203.
[26]Deu,M.,A.Ratnadass,M.Hamada,J.Noyer,M.Diabatedagger,and J.Chantereau.Short Communication-Quantitative trait loci for head-bug resistance in sorghum[J].Afr.J.Biotechnol.,2005,4(3):247-250.
[27]Feltus,F.,G.Hart,K.Schertz,A.Casa,S.Kresovich,S.Abraham,et al.Alignment of genetic maps and QTLs between inter-and intra-specific sorghum populations[J].Theor.Appl.Genet.,2006,112(7):1295-1305.
[28]Aruna,C.,V.Bhagwat,R.Madhusudhana,V.Sharma,T.Hussain,R.Ghorade,et al.Identification and validation of genomic regions that affect shoot fly resistance in sorghum[Sorghum bicolor(L.)Moench][J].Theor.Appl.Genet.,2011,122(8):1617-1630.
[29]Satish,K.,G.Srinivas,R.Madhusudhana,P.Padmaja,R.N.Reddy,S.M.Mohan,et al.Identification of quantitative trait loci for resistance to shoot fly in sorghum[Sorghum bicolor(L.)Moench][J].Theor.Appl.Genet.,2009,119(8):1425-1439.
[30]Parker,C.Observations on the current status of Orobanche and Striga problems worldwide[J].Pest Manag.Sci.,2009,65(5):453-459.
[31]Tuinstra,M.R.,S.Soumana,K.Al-Khatib,I.Kapran,A.Toure,A.van Ast,et al.Efficacy of herbicide seed treatments for controlling infestation of sorghum[J].Crop Sci.,2009,49(3):923-929.
[32]Aly,R.,H.Cholakh,D.M.Joel,D.Leibman,B.Steinitz,A.Zelcer,et al.Gene silencing of mannose 6-phosphate reductase in the parasitic weed Orobanche aegyptiaca through the production of homologous ds RNA sequences in the host plant[J].Plant Biotechnol.J.,2009,7:487-498.
[33]Haussmann,B.,D.Hess,G.Omanya,R.Folkertsma,B.Reddy,M.Kayentao,et al.Genomic regions influencing resistance to the parasitic weed Striga hermonthica in two recombinant inbred populations of sorghum[J].Theor.Appl.Genet.,2004,109:1005-1016.
[34]Jamann,T.M.,J.A.Poland,J.M.Kolkman,L.G.Smith,and R.J.Nelson.Unraveling genomic complexity at a quantitative disease resistance locus in Maize[J].Genetics,2014,198(1):333-344.
[35]Duke,S.O.,and S.B.Powles.Glyphosate:a once-in-a-century herbicide[J].Pest Manag.Sci.,2008,64(4):319-325.
[36]Yu,Q.,and S.B.Powles.Metabolism-based herbicide resistance and cross-resistance in crop weeds:a threat to herbicide sustainability and global crop production[J].Plant Physiol.,2014,166:1106-1118.
[37]Wright,T.R.,G.Shan,T.A.Walsh,J.M.Lira,C.Cui,P.Song,et al.Robust crop resistance to broadleaf and grass herbicides provided by aryloxyalkanoate dioxygenase transgenes[J].Proc.Natl Acad.Sci.,2010,107(47):20240-20245.
[38]Gressel,J.,and A.A.Levy.Use of multi-copy transposons bearing unfitness genes in weed control:four example scenarios[J].Plant Physiol.,2014,166:1221-1231.
[39]Sammons,D.R.,D.Wang,P.Morris,B.Duncan,G.Griffith,and D.Findley.Strategies for countering herbicide resistance.//TM Hammad:Abstracts of papers of the American Chemical Society[D].Amer Chemical Soc 1155 16TH ST,NW,Washington,DC 20036 USA,2012.
[40]López-Arredondo,D.L.,and L.Herrera-Estrella.Engineering phosphorus metabolism in plants to produce a dual fertilization and weed control system[J].Nat.Biotechnol.,2012,30(9):889-893.
[41]Heap,I.Global perspective of herbicide-resistant weeds.Pest Manag.Sci.,2014,70:1306-1315.
[42]Mutegi,E.,F.Sagnard,M.Muraya,B.Kanyenji,B.Rono,C.Mwongera,et al.Ecogeographical distribution of wild,weedy and cultivated Sorghum bicolor(L.)Moench in Kenya:implications for conservation and crop-to-wild gene flow[J].Genet.Resour.Crop Evol.,2010,57:243-253.
[43]Washburn,J.D.,S.C.Murray,B.L.Burson,R.R.Klein,and R.W.Jessup.Targeted mapping of quantitative trait locus regions for rhizomatousness in chromosome SBI-01 and analysis of overwintering in a Sorghum bicolor×S.propinquum population[J].Mol.Breeding,2013,31(1):153-162.