Soybean cyst nematode(SCN,Heterodera glycines Ichinohe)is one of the most economically destructive pathogens.The soybean line Zhongpin03-5373(ZP),which combines resistance genes from several donors,is highly resistant...Soybean cyst nematode(SCN,Heterodera glycines Ichinohe)is one of the most economically destructive pathogens.The soybean line Zhongpin03-5373(ZP),which combines resistance genes from several donors,is highly resistant to SCN race 3(SCN3).In our previous study,two QTL(rhg1 and GmSNAP11)were identified in a population of recombinant inbred lines derived from a cross between ZP and the susceptible parent Zhonghuang 13.The two QTL explained around one-third of the resistance,suggesting the presence of further QTL contributing to SCN resistance.In the present study,we used an improved version of the geneticmap comprising the previously applied 1062 molecular markers and 47 newly developed InDel(insertion-deletion)markers.The improved map revealed a novel locus contributing to SCN3 resistance:qSCN3-1,flanked by InDelmarker InDel1-7 and SNPmarker Map-0047,explained 4.55%of the phenotypic variance for resistance to SCN3 and was not involved in digenic epistatic interaction with rhg1 and GmSNAP11.Haplotypes of Map-0047_CAPS(a CAPS marker developed for Map-0047)and InDel1-7 were significantly associated with SCN3 resistance in a panel of 209 resistant and susceptible accessions.Using further allele-combination analysis for three functional markers representing three cloned resistance genes(rhg1,Rhg4,andGmSNAP11)and twomarkers flanking qSCN3-1,we found that adding the resistance allele of qSCN3-1 greatly increased soybean resistance to SCN,even in diverse genetic backgrounds.The qSCN3-1 locus will be useful for marker-assisted polygene pyramid breeding and should be targeted for the future identification of candidate genes.展开更多
Soybean cyst nematode(SCN), Heterodera glycine, is one of the important diseases affecting the yield of soybean(Glycine max) worldwide. Host-plant resistance is the most economically effective way to control SCN. Iden...Soybean cyst nematode(SCN), Heterodera glycine, is one of the important diseases affecting the yield of soybean(Glycine max) worldwide. Host-plant resistance is the most economically effective way to control SCN. Identification of DNA markers linked to SCN resistance genes is one of the important steps in the marker-assisted selection(MAS) for nematode resistance breeding. Quantitative trait loci(QTLs) controlled by mul-tiple resistance genes plays a powerful role in MAS-breeding program. In this paper, we reviewed genetic resistance of SCN, molecular markers of resistance gene and Genome-Wide Associated Study(GWAS) of QTLs linked to SCN resistance, explored the present problems of genetic resistance,and prospected the future of QTL analysis.展开更多
[ Objective] The paper was to identify endophytic bacillus BHL3501 from wild soybean and its inhibitory effect against soybean cyst nematode. [ Meth- od] Through morphological characteristic, physiological and biochem...[ Objective] The paper was to identify endophytic bacillus BHL3501 from wild soybean and its inhibitory effect against soybean cyst nematode. [ Meth- od] Through morphological characteristic, physiological and biochemical characteristics and 16S rDNA analysis, a strain of endophytic bacterium BHL3501 with ne- maticidal activity isolated and screened from the root of wild soybean was identified, the effects of BHL3501 metabolite solutions with different dilution multiples on egg hatching and activity of 2rd instar juvenile of soybean cyst nematode were also studied. [ Result ] BHL3501 strain was preliminarily identified to be Bacillus sp.. The relative inhibitory rate of its original fermentation broth on egg hatching of soybean cyst nematode after 24 h was 98.3% ; the relative inhibitory rate under 10- time diluted solution treatment was 79.5%, which had significant difference with sterile water control. The corrected mortality rate of 24 instar juvenile was 93.1% after treated by original fermentation broth for 24 h, the treatments of all diluted solutions had significant difference with sterile water control. [ Conclusion ] BHL3501 metabolites had strong inhibitory effect against egg hatching of soybean cyst nematode, which also had strong toxic effect on its 2nd instar juvenile.展开更多
As a pest, in order to complete its life history and reproduces effectively, soybean cyst nematode (SCN) (Heterodera glycines Ichinche 1952) must adapt to various environments and conditions for long periods of ev...As a pest, in order to complete its life history and reproduces effectively, soybean cyst nematode (SCN) (Heterodera glycines Ichinche 1952) must adapt to various environments and conditions for long periods of evolution. The nematode is widely dispersed year after year. Controlling this pest requires understanding characters and adaptability of SCN. Effects of abiotic factors, such as temperature, soil humidity, agrotype, pH value, ions, plant exudates, agricultural chemical and cultivation systems on SCN, are reviewed in this paper. The results show that SCN is able to endure various environmental stresses, especially low temperature. Because of its special life history, cyst stage help SCN over winter, resistance of SCN to environmental stress is strong. A few studies have reported the mechanism of SCN environmental adaptability. We emphasized the importance of studying environmental adaptability of SCN, which would benefit the control of SCN by ecological means.展开更多
Soybean cyst nematode (SCN) is one of the most devastating pathogen for soybean. Therefore, identiifcation of resistant germplasm resources and resistant genes is needed to improve SCN resistance for soybean. Soybea...Soybean cyst nematode (SCN) is one of the most devastating pathogen for soybean. Therefore, identiifcation of resistant germplasm resources and resistant genes is needed to improve SCN resistance for soybean. Soybean varieties Huipizhiheidou and Wuzhaiheidou were distributed in China and exhibited broad spectrums of resistance to various SCN races. In this study, these two resistant varieties, combined with standard susceptible varieties (Lee and Essex), were utilized to identify the differentially expressed transcripts after infection with SCN race 4 between resistant and susceptible reactions by using the Affymetrix Soybean Genome GeneChip. Comparative analyses indicated that 21 common genes changed signiifcantly in the resistant group, of which 16 increased and 5 decreased. However, 12 common genes changed signiifcantly in the susceptible group, of which 9 increased and 3 decreased. Additionally, 27 genes were found in common between resistant and susceptible reactions. The 21 signiifcantly changed genes in resistant reaction were associated with disease and defense, cell structure, transcription, metabolism, and signal transduction. The fold induction of 4 from the 21 genes was conifrmed by quantitative RT-PCR (qRT-PCR) analysis. Moreover, the gene ontology (GO) enrichment analyses demonstrated the serine family amino acid metabolic process and arginine metabolic process may play important roles in SCN resistance. This study provided a new insight on the genetic basis of soybean resistance to SCN race 4, and the identiifed resistant or resistant-related genes are potentially useful for SCN-resistance breeding in soybean.展开更多
The resistance of soybean(Glycine max(L.) Merr.) to soybean cyst nematode(SCN, Heterodera glycines Ichinohe), which is a devastating pathogen in soybean production and causes a large quantity of annual yield loss worl...The resistance of soybean(Glycine max(L.) Merr.) to soybean cyst nematode(SCN, Heterodera glycines Ichinohe), which is a devastating pathogen in soybean production and causes a large quantity of annual yield loss worldwide, can shift during the long-term interaction and domestication. It is vital to identify more new resistance genetic sources for identification of novel genes underlying resistance to SCN for management of this pathogen. In the present study, first, two ethane methylsulfonate-mutagenesis soybean M2 populations of PI 437654, which shows a broad resistance to almost all of SCN races, and Zhonghuang 13, which is a soybean cultivar in China conferring strong resistance to lodging, were developed. Many types of morphological phenotypes such as four-and five-leaflet leaves were observed from these two soybean M2 populations. Second, 13 mutants were identified and confirmed to exhibit alteration of resistance to SCN race 4 through the forward genetic screening of 400 mutants of the PI 437654 M2 population, the rate of mutants with alteration of SCNinfection phenotype is 3.25%. Third, these identified mutants were further verified not to show any changes in the genomic sequences of the three known SCN-resistant genes, GmSHMT08, GmSNAP18 and GmSANP11, compared to the wildtype soybean; and all of them were still resistant to SCN race 3 similar to the wild-type soybean. Taken together, we can conclude that the 13 mutants identified in the present study carry the mutations of the new gene(s) which contribute(s) to the resistance to SCN race 4 in PI 437654 and can be potentially used as the genetic soybean sources to further identify the novel SCN-resistant gene(s).展开更多
Soybean cyst nematode (SCN Heterodera glycines Ichinohe) is one of the most important nationwide soybean diseases in China. A total of 38 soil specimens or locations in the area was sampled and tested for SCN races ...Soybean cyst nematode (SCN Heterodera glycines Ichinohe) is one of the most important nationwide soybean diseases in China. A total of 38 soil specimens or locations in the area was sampled and tested for SCN races during 2001-2003 for the inspection of race distribution in Huang-Huai Valleys. A map of race distribution was constructed according to the data from both the present study and the published reports cited. Three areas, namely, the area of southeast to Jinan in Shangdong Province; the area of northern Henan Province and its border region to south of Hebei Province; and the area of Luohe, Zhoukou of Henan Province and Fuyang of Anhui Province mainly infested with Race 1 were identified. Race 4 was predominant in Shanxi Province, Beijing and the adjacent area of Henan, Shandong, and Anhui provinces, and the delta of Huanghe River in Shandong Province. Race 2 was mainly found in Liaocheng, Dezhou of Shangdong Province and Shijiazhuang of Hebei Province, and Jiaozuo and Huojia of Henan Province. Race 7 was distributed in the west part of Jiaodong Peninsula of Shandong Province and Kaifeng, Huaxian, Wenxian of Henan Province. Race 5 was found and scattered in Hebei and Henan Province. Race 9 was found in Shangqiu of Henan Province, which was reported for the first time in China. It can be seen that Race 1 and Race 4 were the two predominant races in Huang-Huai Valleys, and that research should focus on developing resistant cultivars of these races. There might exist other races in an area with some predominant races. The race substitution in the past decade was not obviously found, therefore, the results should be meaningful to future breeding for resistance to SCN in Huang-Huai Valleys.展开更多
Soybean cyst nematode(SCN,Heterodera glycines Ichinohe)is the most economically damaging disease of soybean worldwide,and breeding host plant resistance is the most feasible option for SCN management.In this review,we...Soybean cyst nematode(SCN,Heterodera glycines Ichinohe)is the most economically damaging disease of soybean worldwide,and breeding host plant resistance is the most feasible option for SCN management.In this review,we summarise the progress made so far in identifying nematode-resistance genes,the currently available sources of resistance,possible mechanisms of SCN resistance and strategies for soybean breeding.To date,only two sources of SCN resistance have been widely used,from the accessions PI 88788 and Peking,which has resulted in a shift in SCN resistance and created a narrow genetic base for SCN resistance.These resistant germplasms for SCN are classified into two types according to their copy number variation in a 31-kb genomic region:PI 88788-type resistance requires high copy numbers of a rhg1 resistance allele(rhg1-b)and Peking-type resistance requires both low copy numbers of a different rhg1 resistance allele(rhg1-a)and a resistant allele at another locus,Rhg4.Resistance related to rhg1 primarily involves impairment of vesicle trafficking through disruption of soluble NSF-attachment protein receptor(SNARE)complexes.By contrast,resistance via Rhg4 involves disturbance of folate homeostasis at SCN feeding sites due to alteration of the enzymatic activity of serine hydroxymethyltransferase(SHMT).Other potential mechanisms,including plant defences mediated by salicylic acid(SA)and jasmonic acid(JA)signalling modulation,have also been suggested for SCN resistance.Indeed,genome-wide association studies(GWAS)have identified other candidate SCN resistance genes,such as Gm SNAP11.Although gene functional analysis in a transient expression system could increase the efficiency of candidate gene identification,information on novel genes and mechanisms for SCN resistance remains limited.Any beneficial candidate genes identified might,when fully exploited,be valuable for improving the efficiency of marker-assisted breeding and dissecting the molecular mechanisms underlying SCN resistance.展开更多
Soybean cyst nematode causes serious damage to soybean production. In 1991, we started breeding studies on the resistance of soybeans to the cyst nematode. We found that near the Beijing area the dominant race of the ...Soybean cyst nematode causes serious damage to soybean production. In 1991, we started breeding studies on the resistance of soybeans to the cyst nematode. We found that near the Beijing area the dominant race of the cyst nematode was race 4. We made more than 50 combinations of cross. The best combination was Dan 8 X PI 437654 which resulted in marked segregation in plant height, pod habit, resistance to cyst nematode and maturity. We obtained many new soybean lines highly resistant to the cyst nematode through the pedigree method of selection, enlarging the number of plants of good combinations, alternative breeding in the North and in the South, and identification at an early generation. We now have released three soybean cultivars, Zhonghuang 12, Zhonghuang 13 and Zhonghuang 17 with moderate resistance to the cyst nematode in Beijing, Anhui, Tianjin and Northern China. In addition, we obtained many lines which were highly resistant to the cyst nematode.展开更多
Soybean cyst nematode(SCN, Heterodera glycines(I.)) is one of the most important soil-borne pathogens for soybeans. In plant parasitic nematodes, including SCN, lysozyme plays important roles in the innate defense sys...Soybean cyst nematode(SCN, Heterodera glycines(I.)) is one of the most important soil-borne pathogens for soybeans. In plant parasitic nematodes, including SCN, lysozyme plays important roles in the innate defense system. In this study, two new lysozyme genes(Hg-lys1 and Hg-lys2) from SCN were cloned and characterized. The in situ hybridization analyses indicated that the transcripts of both Hg-lys1 and Hg-lys2 accumulated in the intestine of SCN. The q RT-PCR analyses showed that both Hg-lys1 and Hg-lys2 were upregulated after SCN second stage juveniles(J2 s) were exposed to the Grampositive bacteria Bacillus thuringiensis, Bacillus subtilis or Staphylococcus aureus. Knockdown of the identified lysozyme genes by in vitro RNA interference caused a significant decrease in the survival rate of SCN. All of the obtained results indicate that lysozyme is very important in the defense system and survival of SCN.展开更多
Soybean cyst nematode(SCN)Heterodera glycines is considered as the major constraint to soybean production.Gm SHMT08 at Rhg4 locus on chromosome 08,encoding a serine hydroxylmethyltransferase,is a major gene underlying...Soybean cyst nematode(SCN)Heterodera glycines is considered as the major constraint to soybean production.Gm SHMT08 at Rhg4 locus on chromosome 08,encoding a serine hydroxylmethyltransferase,is a major gene underlying resistance against H.glycines in Peking-type soybeans.However,the molecular mechanism underpinning this resistance is less well characterized,and whether Gm SHMT08 could interact with proteins in H.glycines remains unclear.In this study,yeast two-hybrid screening was conducted using Gm SHMT08 as a bait protein,and a fragment of a 70-kDa heat shock protein(Hg HSP70)was screened from H.glycines that exhibited interaction with Gm SHMT08.This interaction was verified by both GST pull-down and bimolecular fluorescence complementation assays.Our finding reveals Hg HSP70 could be applied as a potential candidate gene for further exploring the mechanism on Gm SHMT08-mediated resistance against SCN H.glycines.展开更多
Soybean cyst nematode (SCN, Heterodera glycines Ichinohe) is the most dangerous disease to cause significant yield losses. Most recent estimates for SCN indicate losses of nearly 9 million metric tons worldwide in
To explore genetic resource of wild soybean(Glycine soia. L), RNA-seq was used to investigate cyst nematode resistance of G. soja. Root transcriptome expressions were profiled at 9, 15 and 20 d post inoculation(DPI) i...To explore genetic resource of wild soybean(Glycine soia. L), RNA-seq was used to investigate cyst nematode resistance of G. soja. Root transcriptome expressions were profiled at 9, 15 and 20 d post inoculation(DPI) in resistant and susceptible G. soja to SCN(soybean cyst nematode). A total of 1,594 differentially expressed genes(DEGs) were identified in roots infected by SCN compared with non-infected roots. In the resistant accession, 619, 65, and 8 DEGs were detected at 9, 15, and 20 DPI, respectively, while 327, 460 and 115 DEGs were detected at the same sampling point of susceptible accessions. DEGs were enriched in peroxidase gene sets which were involved in response to oxidative stress and oxidation reduction. Two gene families, ZIM transcription factor and WRKY transcription factor were enriched. WRKY transcription factor was only enriched in resistant accession. Moreover, gene expressions of 9 DEGs were validated by qRT-PCR. XLOC_023202, an unknown protein was up regulated more than 5 fold at 9 and 15 DPI in the resistant accession. These results provided an atlas of gene expressions of G. soja in response to SCN infection, and identified candidate DEGs for future research.展开更多
Soybean(Glycine max L.)is a protein and oil crop grown worldwide.Its fitness may be reduced by deleterious mutations,whose identification and purging is desirable for crop breeding.In the published whole-genome re-seq...Soybean(Glycine max L.)is a protein and oil crop grown worldwide.Its fitness may be reduced by deleterious mutations,whose identification and purging is desirable for crop breeding.In the published whole-genome re-sequenced data of 2214 soybean accessions,including 221 wild soybean,1132 landrace cultivars and 861 improved soybean lines,we identified 115,275 deleterious single-nucleotide polymorphisms(SNPs).Numbers of deleterious alleles increased from wild soybeans to landraces and decreased from landraces to modern improved lines.Genes in selective-sweep regions showed fewer deleterious mutations than the remaining genes.Deleterious mutations explained 4.3%-48%more phenotypic variation than randomly selected SNPs for resistance to soybean cyst nematode race 2(SCN2),soybean cyst nematode race 3(SCN3)and soybean mosaic virus race 3(SMV3).These findings illustrate how mutation load has shifted during soybean domestication,expansion and improvement and provide candidate sites for breeding out deleterious mutations in soybean by genome editing and/or conventional breeding focused on the selection of progeny with fewer deleterious alleles.展开更多
基金This research was financed by the National Key Research and Development Program of China(2016YFD0100201)the Agricultural Science and Technology Innovation Program(ASTIP)of the Chinese Academy of Agricultural Sciences.
文摘Soybean cyst nematode(SCN,Heterodera glycines Ichinohe)is one of the most economically destructive pathogens.The soybean line Zhongpin03-5373(ZP),which combines resistance genes from several donors,is highly resistant to SCN race 3(SCN3).In our previous study,two QTL(rhg1 and GmSNAP11)were identified in a population of recombinant inbred lines derived from a cross between ZP and the susceptible parent Zhonghuang 13.The two QTL explained around one-third of the resistance,suggesting the presence of further QTL contributing to SCN resistance.In the present study,we used an improved version of the geneticmap comprising the previously applied 1062 molecular markers and 47 newly developed InDel(insertion-deletion)markers.The improved map revealed a novel locus contributing to SCN3 resistance:qSCN3-1,flanked by InDelmarker InDel1-7 and SNPmarker Map-0047,explained 4.55%of the phenotypic variance for resistance to SCN3 and was not involved in digenic epistatic interaction with rhg1 and GmSNAP11.Haplotypes of Map-0047_CAPS(a CAPS marker developed for Map-0047)and InDel1-7 were significantly associated with SCN3 resistance in a panel of 209 resistant and susceptible accessions.Using further allele-combination analysis for three functional markers representing three cloned resistance genes(rhg1,Rhg4,andGmSNAP11)and twomarkers flanking qSCN3-1,we found that adding the resistance allele of qSCN3-1 greatly increased soybean resistance to SCN,even in diverse genetic backgrounds.The qSCN3-1 locus will be useful for marker-assisted polygene pyramid breeding and should be targeted for the future identification of candidate genes.
基金Supported by General Project of National Natural Science Foundation of China(31772139,31471749)Key Project of Natural Science Foundation of Heilongjiang Province(ZD2017006)Hundred Talents Program of Chinese Academy of Sciences
文摘Soybean cyst nematode(SCN), Heterodera glycine, is one of the important diseases affecting the yield of soybean(Glycine max) worldwide. Host-plant resistance is the most economically effective way to control SCN. Identification of DNA markers linked to SCN resistance genes is one of the important steps in the marker-assisted selection(MAS) for nematode resistance breeding. Quantitative trait loci(QTLs) controlled by mul-tiple resistance genes plays a powerful role in MAS-breeding program. In this paper, we reviewed genetic resistance of SCN, molecular markers of resistance gene and Genome-Wide Associated Study(GWAS) of QTLs linked to SCN resistance, explored the present problems of genetic resistance,and prospected the future of QTL analysis.
基金Supported by National Natural Science Foundation of China ( 30940050)Natural Science Foundation of Hebei Province ( C2006000559+2 种基金 C2009000868) Commission of Science Technology of Hebei Province ( 06547005D-3,09220103D-11)Educational Commission of Hebei Province( Z2008114)~~
文摘[ Objective] The paper was to identify endophytic bacillus BHL3501 from wild soybean and its inhibitory effect against soybean cyst nematode. [ Meth- od] Through morphological characteristic, physiological and biochemical characteristics and 16S rDNA analysis, a strain of endophytic bacterium BHL3501 with ne- maticidal activity isolated and screened from the root of wild soybean was identified, the effects of BHL3501 metabolite solutions with different dilution multiples on egg hatching and activity of 2rd instar juvenile of soybean cyst nematode were also studied. [ Result ] BHL3501 strain was preliminarily identified to be Bacillus sp.. The relative inhibitory rate of its original fermentation broth on egg hatching of soybean cyst nematode after 24 h was 98.3% ; the relative inhibitory rate under 10- time diluted solution treatment was 79.5%, which had significant difference with sterile water control. The corrected mortality rate of 24 instar juvenile was 93.1% after treated by original fermentation broth for 24 h, the treatments of all diluted solutions had significant difference with sterile water control. [ Conclusion ] BHL3501 metabolites had strong inhibitory effect against egg hatching of soybean cyst nematode, which also had strong toxic effect on its 2nd instar juvenile.
基金supported by a grant from the National Technology System of Modern Agricultural Industry, China.
文摘As a pest, in order to complete its life history and reproduces effectively, soybean cyst nematode (SCN) (Heterodera glycines Ichinche 1952) must adapt to various environments and conditions for long periods of evolution. The nematode is widely dispersed year after year. Controlling this pest requires understanding characters and adaptability of SCN. Effects of abiotic factors, such as temperature, soil humidity, agrotype, pH value, ions, plant exudates, agricultural chemical and cultivation systems on SCN, are reviewed in this paper. The results show that SCN is able to endure various environmental stresses, especially low temperature. Because of its special life history, cyst stage help SCN over winter, resistance of SCN to environmental stress is strong. A few studies have reported the mechanism of SCN environmental adaptability. We emphasized the importance of studying environmental adaptability of SCN, which would benefit the control of SCN by ecological means.
基金supported by the National Nature Science Foundation of China (31301345 and 31171576)the CAAS Innovation Project, the Genetically Modified Organisms Breeding Major Projects, China (2009ZX08004-003B and 2011ZX08004-003)the Key Technologies R&D Program of China during the 12th Five-Year Plan period (2011BAD35B06-3)
文摘Soybean cyst nematode (SCN) is one of the most devastating pathogen for soybean. Therefore, identiifcation of resistant germplasm resources and resistant genes is needed to improve SCN resistance for soybean. Soybean varieties Huipizhiheidou and Wuzhaiheidou were distributed in China and exhibited broad spectrums of resistance to various SCN races. In this study, these two resistant varieties, combined with standard susceptible varieties (Lee and Essex), were utilized to identify the differentially expressed transcripts after infection with SCN race 4 between resistant and susceptible reactions by using the Affymetrix Soybean Genome GeneChip. Comparative analyses indicated that 21 common genes changed signiifcantly in the resistant group, of which 16 increased and 5 decreased. However, 12 common genes changed signiifcantly in the susceptible group, of which 9 increased and 3 decreased. Additionally, 27 genes were found in common between resistant and susceptible reactions. The 21 signiifcantly changed genes in resistant reaction were associated with disease and defense, cell structure, transcription, metabolism, and signal transduction. The fold induction of 4 from the 21 genes was conifrmed by quantitative RT-PCR (qRT-PCR) analysis. Moreover, the gene ontology (GO) enrichment analyses demonstrated the serine family amino acid metabolic process and arginine metabolic process may play important roles in SCN resistance. This study provided a new insight on the genetic basis of soybean resistance to SCN race 4, and the identiifed resistant or resistant-related genes are potentially useful for SCN-resistance breeding in soybean.
基金financially supported by the Innovation Program and Youth elite Program of Chinese Academy of Agricultural Sciencesthe Special Fund for Agro-scientific Research in the Public Interest of China(201503114)
文摘The resistance of soybean(Glycine max(L.) Merr.) to soybean cyst nematode(SCN, Heterodera glycines Ichinohe), which is a devastating pathogen in soybean production and causes a large quantity of annual yield loss worldwide, can shift during the long-term interaction and domestication. It is vital to identify more new resistance genetic sources for identification of novel genes underlying resistance to SCN for management of this pathogen. In the present study, first, two ethane methylsulfonate-mutagenesis soybean M2 populations of PI 437654, which shows a broad resistance to almost all of SCN races, and Zhonghuang 13, which is a soybean cultivar in China conferring strong resistance to lodging, were developed. Many types of morphological phenotypes such as four-and five-leaflet leaves were observed from these two soybean M2 populations. Second, 13 mutants were identified and confirmed to exhibit alteration of resistance to SCN race 4 through the forward genetic screening of 400 mutants of the PI 437654 M2 population, the rate of mutants with alteration of SCNinfection phenotype is 3.25%. Third, these identified mutants were further verified not to show any changes in the genomic sequences of the three known SCN-resistant genes, GmSHMT08, GmSNAP18 and GmSANP11, compared to the wildtype soybean; and all of them were still resistant to SCN race 3 similar to the wild-type soybean. Taken together, we can conclude that the 13 mutants identified in the present study carry the mutations of the new gene(s) which contribute(s) to the resistance to SCN race 4 in PI 437654 and can be potentially used as the genetic soybean sources to further identify the novel SCN-resistant gene(s).
基金The project was supported by the National Natural Science Foundation of China (30490250)the National Key Basic Research Program (2002CB 111304, 2004CB7206)+1 种基金the National 863 Program (2002AA211052)the Program for Changjiang Scholars and Innovative Research Team in University (PCSIRT).
文摘Soybean cyst nematode (SCN Heterodera glycines Ichinohe) is one of the most important nationwide soybean diseases in China. A total of 38 soil specimens or locations in the area was sampled and tested for SCN races during 2001-2003 for the inspection of race distribution in Huang-Huai Valleys. A map of race distribution was constructed according to the data from both the present study and the published reports cited. Three areas, namely, the area of southeast to Jinan in Shangdong Province; the area of northern Henan Province and its border region to south of Hebei Province; and the area of Luohe, Zhoukou of Henan Province and Fuyang of Anhui Province mainly infested with Race 1 were identified. Race 4 was predominant in Shanxi Province, Beijing and the adjacent area of Henan, Shandong, and Anhui provinces, and the delta of Huanghe River in Shandong Province. Race 2 was mainly found in Liaocheng, Dezhou of Shangdong Province and Shijiazhuang of Hebei Province, and Jiaozuo and Huojia of Henan Province. Race 7 was distributed in the west part of Jiaodong Peninsula of Shandong Province and Kaifeng, Huaxian, Wenxian of Henan Province. Race 5 was found and scattered in Hebei and Henan Province. Race 9 was found in Shangqiu of Henan Province, which was reported for the first time in China. It can be seen that Race 1 and Race 4 were the two predominant races in Huang-Huai Valleys, and that research should focus on developing resistant cultivars of these races. There might exist other races in an area with some predominant races. The race substitution in the past decade was not obviously found, therefore, the results should be meaningful to future breeding for resistance to SCN in Huang-Huai Valleys.
基金supported by the National Key Research and Development Program of China(2016YFD0100504,2016YFD0100201,and 2017YFD0101400)the National Natural Science Foundation of China(No.31301345 and No.31671716)+1 种基金the National Major Science and Technology Project of China(2016ZX08004-003)the Agricultural Science and Technology Innovation Program of CAAS。
文摘Soybean cyst nematode(SCN,Heterodera glycines Ichinohe)is the most economically damaging disease of soybean worldwide,and breeding host plant resistance is the most feasible option for SCN management.In this review,we summarise the progress made so far in identifying nematode-resistance genes,the currently available sources of resistance,possible mechanisms of SCN resistance and strategies for soybean breeding.To date,only two sources of SCN resistance have been widely used,from the accessions PI 88788 and Peking,which has resulted in a shift in SCN resistance and created a narrow genetic base for SCN resistance.These resistant germplasms for SCN are classified into two types according to their copy number variation in a 31-kb genomic region:PI 88788-type resistance requires high copy numbers of a rhg1 resistance allele(rhg1-b)and Peking-type resistance requires both low copy numbers of a different rhg1 resistance allele(rhg1-a)and a resistant allele at another locus,Rhg4.Resistance related to rhg1 primarily involves impairment of vesicle trafficking through disruption of soluble NSF-attachment protein receptor(SNARE)complexes.By contrast,resistance via Rhg4 involves disturbance of folate homeostasis at SCN feeding sites due to alteration of the enzymatic activity of serine hydroxymethyltransferase(SHMT).Other potential mechanisms,including plant defences mediated by salicylic acid(SA)and jasmonic acid(JA)signalling modulation,have also been suggested for SCN resistance.Indeed,genome-wide association studies(GWAS)have identified other candidate SCN resistance genes,such as Gm SNAP11.Although gene functional analysis in a transient expression system could increase the efficiency of candidate gene identification,information on novel genes and mechanisms for SCN resistance remains limited.Any beneficial candidate genes identified might,when fully exploited,be valuable for improving the efficiency of marker-assisted breeding and dissecting the molecular mechanisms underlying SCN resistance.
文摘Soybean cyst nematode causes serious damage to soybean production. In 1991, we started breeding studies on the resistance of soybeans to the cyst nematode. We found that near the Beijing area the dominant race of the cyst nematode was race 4. We made more than 50 combinations of cross. The best combination was Dan 8 X PI 437654 which resulted in marked segregation in plant height, pod habit, resistance to cyst nematode and maturity. We obtained many new soybean lines highly resistant to the cyst nematode through the pedigree method of selection, enlarging the number of plants of good combinations, alternative breeding in the North and in the South, and identification at an early generation. We now have released three soybean cultivars, Zhonghuang 12, Zhonghuang 13 and Zhonghuang 17 with moderate resistance to the cyst nematode in Beijing, Anhui, Tianjin and Northern China. In addition, we obtained many lines which were highly resistant to the cyst nematode.
基金supported the Central Public-Interest Scientific Institution Basal Research Fund, China (Y2019GH03)the Special Fund for Agro-Scientific Research in the Public Interest of China (210503114)SINOGRAIN Ⅱ (CHN-17/0019): Technological Innovation to Support Environmentally-Friendly Food Production and Food Safety Under a Changing Climate-Opportunities and Challenges for Norway-China Cooperation
文摘Soybean cyst nematode(SCN, Heterodera glycines(I.)) is one of the most important soil-borne pathogens for soybeans. In plant parasitic nematodes, including SCN, lysozyme plays important roles in the innate defense system. In this study, two new lysozyme genes(Hg-lys1 and Hg-lys2) from SCN were cloned and characterized. The in situ hybridization analyses indicated that the transcripts of both Hg-lys1 and Hg-lys2 accumulated in the intestine of SCN. The q RT-PCR analyses showed that both Hg-lys1 and Hg-lys2 were upregulated after SCN second stage juveniles(J2 s) were exposed to the Grampositive bacteria Bacillus thuringiensis, Bacillus subtilis or Staphylococcus aureus. Knockdown of the identified lysozyme genes by in vitro RNA interference caused a significant decrease in the survival rate of SCN. All of the obtained results indicate that lysozyme is very important in the defense system and survival of SCN.
基金supported by the National Natural Science Foundation of China(31972248)the Agricultural Science and Technology Innovation Project of Chinese Academy of Agricultural Sciences,China(ASTIP-02IPP-04)。
文摘Soybean cyst nematode(SCN)Heterodera glycines is considered as the major constraint to soybean production.Gm SHMT08 at Rhg4 locus on chromosome 08,encoding a serine hydroxylmethyltransferase,is a major gene underlying resistance against H.glycines in Peking-type soybeans.However,the molecular mechanism underpinning this resistance is less well characterized,and whether Gm SHMT08 could interact with proteins in H.glycines remains unclear.In this study,yeast two-hybrid screening was conducted using Gm SHMT08 as a bait protein,and a fragment of a 70-kDa heat shock protein(Hg HSP70)was screened from H.glycines that exhibited interaction with Gm SHMT08.This interaction was verified by both GST pull-down and bimolecular fluorescence complementation assays.Our finding reveals Hg HSP70 could be applied as a potential candidate gene for further exploring the mechanism on Gm SHMT08-mediated resistance against SCN H.glycines.
基金the National Natural Science Foundation of China (NSFC) ( Key-project 30490254).
文摘Soybean cyst nematode (SCN, Heterodera glycines Ichinohe) is the most dangerous disease to cause significant yield losses. Most recent estimates for SCN indicate losses of nearly 9 million metric tons worldwide in
基金supported by Science and Technology Development Program of Jilin Province (20170414009GH)Agricultural Science and Technology Innovation Project of Jilin Province (CXGC2017JQ018, CXGC2017ZY024)the United States Department of Agriculture-Agricultural Research Service
文摘To explore genetic resource of wild soybean(Glycine soia. L), RNA-seq was used to investigate cyst nematode resistance of G. soja. Root transcriptome expressions were profiled at 9, 15 and 20 d post inoculation(DPI) in resistant and susceptible G. soja to SCN(soybean cyst nematode). A total of 1,594 differentially expressed genes(DEGs) were identified in roots infected by SCN compared with non-infected roots. In the resistant accession, 619, 65, and 8 DEGs were detected at 9, 15, and 20 DPI, respectively, while 327, 460 and 115 DEGs were detected at the same sampling point of susceptible accessions. DEGs were enriched in peroxidase gene sets which were involved in response to oxidative stress and oxidation reduction. Two gene families, ZIM transcription factor and WRKY transcription factor were enriched. WRKY transcription factor was only enriched in resistant accession. Moreover, gene expressions of 9 DEGs were validated by qRT-PCR. XLOC_023202, an unknown protein was up regulated more than 5 fold at 9 and 15 DPI in the resistant accession. These results provided an atlas of gene expressions of G. soja in response to SCN infection, and identified candidate DEGs for future research.
基金supported by the National Natural Science Foundation of China(32172002,32070242)Shenzhen Science and Technology Program(KQTD2016113010482651)+1 种基金Special Funds for Science Technology Innovation and Industrial Development of Shenzhen Dapeng New District(RC201901-05,PT201901-19)the USDA Agricultural Research Service Research Participation Program of the Oak Ridge Institute for Science and Education(ORISE)(DE-AC05-06OR23100).
文摘Soybean(Glycine max L.)is a protein and oil crop grown worldwide.Its fitness may be reduced by deleterious mutations,whose identification and purging is desirable for crop breeding.In the published whole-genome re-sequenced data of 2214 soybean accessions,including 221 wild soybean,1132 landrace cultivars and 861 improved soybean lines,we identified 115,275 deleterious single-nucleotide polymorphisms(SNPs).Numbers of deleterious alleles increased from wild soybeans to landraces and decreased from landraces to modern improved lines.Genes in selective-sweep regions showed fewer deleterious mutations than the remaining genes.Deleterious mutations explained 4.3%-48%more phenotypic variation than randomly selected SNPs for resistance to soybean cyst nematode race 2(SCN2),soybean cyst nematode race 3(SCN3)and soybean mosaic virus race 3(SMV3).These findings illustrate how mutation load has shifted during soybean domestication,expansion and improvement and provide candidate sites for breeding out deleterious mutations in soybean by genome editing and/or conventional breeding focused on the selection of progeny with fewer deleterious alleles.
