Reproductive stage frost poses a major constraint for wheat production in countries such as Australia.However,little progress has been made in identifying key genes to overcome the constraint.In the present study,a se...Reproductive stage frost poses a major constraint for wheat production in countries such as Australia.However,little progress has been made in identifying key genes to overcome the constraint.In the present study,a severe frost event hit two large-scale field trials consisting of six doubled haploid(DH)wheat populations at reproductive stage(young microspore stage)in Western Australia,leading to the identification of 30 robust frost QTL on 17 chromosomes.The major 18 QTL with the phenotype variation over 9.5%were located on 13 chromosomes including 2 A,2 B,2 D,3 A,4 A,4 B,4 D,5 A,5 D,6 D,7 A,7 B and7 D.Most frost QTL were closely linked to the QTL of anthesis,maturity,Zadok stages as well as linked to anthesis related genes.Out of those,six QTL were repetitively detected on the homologous regions on 2 B,4 B,4 D,5 A,5 D,7 A in more than two populations.Results showed that the frost damage is associated with alleles of Vrn-A1 a,Vrn-D1 a,Rht-B1 b,Rht-D1 b,and the high copy number of Ppd-B1.However,anthesis QTL and anthesis related genes of Vrn-B1 a and Ta FT3-1 B on chromosomes 5 B and 1 B did not lead to frost damage,indicating that these early-flowering phenotype related genes are compatible with frost tolerance and thus can be utilised in breeding.Our results also indicate that wild-type alleles Rht-B1 a and Rht-D1 a can be used when breeding for frost-tolerant varieties without delaying flowering time.展开更多
Plants are vulnerable to heat stress,especially during reproductive development.The heat shock response(HSR)in the cytosol and nucleus,as well as the unfolded protein response(UPR)in the endoplasmic reticulum(ER),are ...Plants are vulnerable to heat stress,especially during reproductive development.The heat shock response(HSR)in the cytosol and nucleus,as well as the unfolded protein response(UPR)in the endoplasmic reticulum(ER),are two mechanisms that enable plants to survive heat stress.Excessive heat or ER stresses lead to cell death when the UPR cannot repair stress damage,but the means by which cell survival or death is determined remains unclear.In this study,we used a genome-wide association study(GWAS)to identify that a cluster of five Immune-associated nucleotide-binding protein(IAN)genes(IAN2 to IAN6)is responsible for variation in heat tolerance at the reproductive stage in Arabidopsis thaliana.These IAN genes have both unique and overlapping functions in the negative regulation of heat tolerance,and their loss of function singly or in combination confers increased heat tolerance,measured by a lower number of barren siliques and a higher seedling survival rate under heat.The loss of rice IAN1 gene function also leads to enhanced heat tolerance,suggesting a conserved function of plant IANs.Transcriptome analysis revealed enhanced expression of HSR and UPR genes,as well as reduced cell death,under heat and ER stress in the mutant of IAN6,a major effect member in Arabidopsis.Furthermore,the IAN proteins were found to promote cell death induced by heat stress,ER stress,and cell death-inducing molecules.Thus,the Arabidopsis IAN genes repress heat tolerance,probably through the HSR and UPR and by enhancing the cell death pathway.The IAN2 to IAN6 proteins are partially localized to the ER,suggesting a direct role in the UPR and UPR-mediated cell death.In addition,a natural IAN6 variant from more heat-tolerant Arabidopsis accessions confers greater heat tolerance and induces less cell death compared with the natural variant from less heat-tolerant accessions.The heat-tolerant IAN6 variant is associated with a higher maximum temperature of the warmest month at its collection sites compared with the heat-sensitive variant.Taken together,these results reveal an important role of Arabidopsis IAN2 to IAN6 genes in the regulation of the HSR,UPR,and cell death,and suggest that their natural variations have adaptive functions in heat tolerance.展开更多
Mastitis is a common disease for mammals all around the world. Figuring out why mastitis mainly occurs around parturition may be helpful for dealing with the disease. Lipolytic activity and oxidative stress take place...Mastitis is a common disease for mammals all around the world. Figuring out why mastitis mainly occurs around parturition may be helpful for dealing with the disease. Lipolytic activity and oxidative stress take place around parturition, which may leads to alteration in fatty acids profile and proinflammatory cytokine expression. Thus, the aim of the present study was to further our understanding about the high incidence of mastitis around parturition by comparison of plasma fatty acid profile and mammary inflammation indicators at different reproductive stages. A total of 47 female rats were included in the present study. After mating, all the pregnant and non-pregnant rats began to receive the same experimental diet. Blood samples were collected at day 1 and 14 of gestation as well as day 3 postpartum.Mammary samples were collected at day 14 of gestation and day 3 postpartum from pregnant and nonpregnant rats. The results showed that rats at d 3 postpartum had greater(P < 0.05) plasma concentrations of non-esterified fatty acids(NEFA), arachidonic acid(ARA) and docosahexaenoic acid(DHA) as well as ARA: eicosapentaenoic acid(EPA) ratio than those at d 14 of gestation. The mRNA abundances of interleukin-1 β(IL-1β), tumor necrosis factor-α(TNF-α),IL-8 and xanthine oxidoreductase(XOR) in mammary of the pregnant rats were greater(P < 0.05) than those in age-matched non-pregnant rats.Rats at d 3 postpartum had higher(P < 0.05) protein expression levels of IL-1β and TNF-α as well as meloperoxidase(MPO) activity and polymorphonuclear neutrophils(PMN) prevalence than those at d 1 of gestation. The rats at d 3 postpartum also had greater(P < 0.05) IL-1β and MPO activity than those at d 14 of gestation. The results indicated that elevated mammary expression of proinflammatory cytokines and XOR as well as altered fatty acid profile around parturition might facilitate the recruitment of neutrophils into mammary glands.展开更多
Compared to other crops,maize production demands relatively high temperatures.However,temperatures exceeding 35℃lead to adverse effects on maize yield.High temperatures(≥35℃)are consistently experienced by summer m...Compared to other crops,maize production demands relatively high temperatures.However,temperatures exceeding 35℃lead to adverse effects on maize yield.High temperatures(≥35℃)are consistently experienced by summer maize during its reproductive growth stage in the North China Plain,which is likely to cause irreversible crop damage.This study investigated the effects of elevating temperature(ET)treatment on the yield component of summer maize,beginning at the 9th unfolding leaf stage and ending at the tasseling stage.Results demonstrated that continuous ET led to a decrease in the elongation rate and activity of silks and an elongated interval between anthesis and silking stages,and eventually decreased grain number at ear tip and reduced yield.Although continuous ET before tasseling damaged the anther structure,reduced pollen activity,delayed the start of the pollen shedding stage,and shortened the pollen shedding time,it was inferred,based on phenotypical and physiological traits,that continuous ET after the 9th unfolding leaf stage influenced ears and therefore may have more significant impacts.Overall,when maize plants were exposed to ET treatment in the ear reproductive development stage,the growth of ears and tassels was blocked,which increased the occurrence of barren ear tips and led to large yield losses.展开更多
To assist with rapid screening for rice blast resistance as a precursor in a breeding program, the susceptibility to rice blast of 13 rice genotypes from Australia was evaluated in May to June 2013 using three distinc...To assist with rapid screening for rice blast resistance as a precursor in a breeding program, the susceptibility to rice blast of 13 rice genotypes from Australia was evaluated in May to June 2013 using three distinct inoculation methods(spot, filter paper and standard methods) at seedling, vegetative and reproductive stages. The results revealed that the spot and filter paper inoculation methods were successful in discerning susceptibility to the rice blast disease(P ≤ 0.05). Disease susceptibility declined significantly from the vegetative to reproductive stages. The standard method was conducted at three different stages for pot plants grown inside the mist house. However, low temperatures did not produce disease symptoms except in a few genotypes. Among the 13 rice genotypes screened, AAT9 expressed a highly resistant response, and AAT4, AAT6, AAT10, AAT11, AAT13, AAT17 and AAT18 expressed resistance at various stages. The results will be useful for selecting elite genotypes for disease tolerance where rice blast is prevalent. In addition, the resistant genotypes can serve as a gene pool used in breeding programmes to develop new resistant genotypes.展开更多
基金supported by Murdoch University and the Australia Grains Research&Development Corporation(GRDC)(grant number UMU00048)the Department of Primary Industries and Regional Development(DPIRD),Western AustraliaKalyx Australia Pty Ltd。
文摘Reproductive stage frost poses a major constraint for wheat production in countries such as Australia.However,little progress has been made in identifying key genes to overcome the constraint.In the present study,a severe frost event hit two large-scale field trials consisting of six doubled haploid(DH)wheat populations at reproductive stage(young microspore stage)in Western Australia,leading to the identification of 30 robust frost QTL on 17 chromosomes.The major 18 QTL with the phenotype variation over 9.5%were located on 13 chromosomes including 2 A,2 B,2 D,3 A,4 A,4 B,4 D,5 A,5 D,6 D,7 A,7 B and7 D.Most frost QTL were closely linked to the QTL of anthesis,maturity,Zadok stages as well as linked to anthesis related genes.Out of those,six QTL were repetitively detected on the homologous regions on 2 B,4 B,4 D,5 A,5 D,7 A in more than two populations.Results showed that the frost damage is associated with alleles of Vrn-A1 a,Vrn-D1 a,Rht-B1 b,Rht-D1 b,and the high copy number of Ppd-B1.However,anthesis QTL and anthesis related genes of Vrn-B1 a and Ta FT3-1 B on chromosomes 5 B and 1 B did not lead to frost damage,indicating that these early-flowering phenotype related genes are compatible with frost tolerance and thus can be utilised in breeding.Our results also indicate that wild-type alleles Rht-B1 a and Rht-D1 a can be used when breeding for frost-tolerant varieties without delaying flowering time.
基金This work is supported by the National Science Foundation of China(NSFC)(31700223 and 31670269)the National Science Foundation of the USA(IOS 1353738)+5 种基金Fundamental Research Funds for the Central Universities(FRFCU)(KJQN201807)the International Postdoctoral Exchange Fellowship Program(no.20160048)from the Office of the China Postdoctoral CouncilOpen Funds of the State Key Laboratory of Plant Physiology and Biochemistry(SKLPPBKF1501)Natural Science Foundation of Jiangsu Province,China(BK20180525)the Jiangsu Collaborative Innovation Center for Modern Crop ProductionCyrus Tang Innovation Center for Crop Seed Industry.
文摘Plants are vulnerable to heat stress,especially during reproductive development.The heat shock response(HSR)in the cytosol and nucleus,as well as the unfolded protein response(UPR)in the endoplasmic reticulum(ER),are two mechanisms that enable plants to survive heat stress.Excessive heat or ER stresses lead to cell death when the UPR cannot repair stress damage,but the means by which cell survival or death is determined remains unclear.In this study,we used a genome-wide association study(GWAS)to identify that a cluster of five Immune-associated nucleotide-binding protein(IAN)genes(IAN2 to IAN6)is responsible for variation in heat tolerance at the reproductive stage in Arabidopsis thaliana.These IAN genes have both unique and overlapping functions in the negative regulation of heat tolerance,and their loss of function singly or in combination confers increased heat tolerance,measured by a lower number of barren siliques and a higher seedling survival rate under heat.The loss of rice IAN1 gene function also leads to enhanced heat tolerance,suggesting a conserved function of plant IANs.Transcriptome analysis revealed enhanced expression of HSR and UPR genes,as well as reduced cell death,under heat and ER stress in the mutant of IAN6,a major effect member in Arabidopsis.Furthermore,the IAN proteins were found to promote cell death induced by heat stress,ER stress,and cell death-inducing molecules.Thus,the Arabidopsis IAN genes repress heat tolerance,probably through the HSR and UPR and by enhancing the cell death pathway.The IAN2 to IAN6 proteins are partially localized to the ER,suggesting a direct role in the UPR and UPR-mediated cell death.In addition,a natural IAN6 variant from more heat-tolerant Arabidopsis accessions confers greater heat tolerance and induces less cell death compared with the natural variant from less heat-tolerant accessions.The heat-tolerant IAN6 variant is associated with a higher maximum temperature of the warmest month at its collection sites compared with the heat-sensitive variant.Taken together,these results reveal an important role of Arabidopsis IAN2 to IAN6 genes in the regulation of the HSR,UPR,and cell death,and suggest that their natural variations have adaptive functions in heat tolerance.
基金supported by the National Natural Science Foundation of China (30901042)Sichuan Province Science Foundation for Fostering Youths Talents (2011JQ0015)+1 种基金Key Program Fundation of the Education Department of Sichuan ProvinceNovus Research Fellowship (NRF)
文摘Mastitis is a common disease for mammals all around the world. Figuring out why mastitis mainly occurs around parturition may be helpful for dealing with the disease. Lipolytic activity and oxidative stress take place around parturition, which may leads to alteration in fatty acids profile and proinflammatory cytokine expression. Thus, the aim of the present study was to further our understanding about the high incidence of mastitis around parturition by comparison of plasma fatty acid profile and mammary inflammation indicators at different reproductive stages. A total of 47 female rats were included in the present study. After mating, all the pregnant and non-pregnant rats began to receive the same experimental diet. Blood samples were collected at day 1 and 14 of gestation as well as day 3 postpartum.Mammary samples were collected at day 14 of gestation and day 3 postpartum from pregnant and nonpregnant rats. The results showed that rats at d 3 postpartum had greater(P < 0.05) plasma concentrations of non-esterified fatty acids(NEFA), arachidonic acid(ARA) and docosahexaenoic acid(DHA) as well as ARA: eicosapentaenoic acid(EPA) ratio than those at d 14 of gestation. The mRNA abundances of interleukin-1 β(IL-1β), tumor necrosis factor-α(TNF-α),IL-8 and xanthine oxidoreductase(XOR) in mammary of the pregnant rats were greater(P < 0.05) than those in age-matched non-pregnant rats.Rats at d 3 postpartum had higher(P < 0.05) protein expression levels of IL-1β and TNF-α as well as meloperoxidase(MPO) activity and polymorphonuclear neutrophils(PMN) prevalence than those at d 1 of gestation. The rats at d 3 postpartum also had greater(P < 0.05) IL-1β and MPO activity than those at d 14 of gestation. The results indicated that elevated mammary expression of proinflammatory cytokines and XOR as well as altered fatty acid profile around parturition might facilitate the recruitment of neutrophils into mammary glands.
基金fnancially supported by the National Key Research and Development Program of China(2018YFD0300704)the Special Funds for Public Welfare Industry(Agriculture)Research,China(201203029)+1 种基金the Open Foundation of State Key Laboratory of Crop Biology in China(2019KF03)the Open Foundation of Chinese Academy of Agricultural Sciences,China/Key Laboratory of Crop Water Use and Regulation,Ministry of Agriculture and Rural Affairs,China(FIRI2019-02-0103)。
文摘Compared to other crops,maize production demands relatively high temperatures.However,temperatures exceeding 35℃lead to adverse effects on maize yield.High temperatures(≥35℃)are consistently experienced by summer maize during its reproductive growth stage in the North China Plain,which is likely to cause irreversible crop damage.This study investigated the effects of elevating temperature(ET)treatment on the yield component of summer maize,beginning at the 9th unfolding leaf stage and ending at the tasseling stage.Results demonstrated that continuous ET led to a decrease in the elongation rate and activity of silks and an elongated interval between anthesis and silking stages,and eventually decreased grain number at ear tip and reduced yield.Although continuous ET before tasseling damaged the anther structure,reduced pollen activity,delayed the start of the pollen shedding stage,and shortened the pollen shedding time,it was inferred,based on phenotypical and physiological traits,that continuous ET after the 9th unfolding leaf stage influenced ears and therefore may have more significant impacts.Overall,when maize plants were exposed to ET treatment in the ear reproductive development stage,the growth of ears and tassels was blocked,which increased the occurrence of barren ear tips and led to large yield losses.
文摘To assist with rapid screening for rice blast resistance as a precursor in a breeding program, the susceptibility to rice blast of 13 rice genotypes from Australia was evaluated in May to June 2013 using three distinct inoculation methods(spot, filter paper and standard methods) at seedling, vegetative and reproductive stages. The results revealed that the spot and filter paper inoculation methods were successful in discerning susceptibility to the rice blast disease(P ≤ 0.05). Disease susceptibility declined significantly from the vegetative to reproductive stages. The standard method was conducted at three different stages for pot plants grown inside the mist house. However, low temperatures did not produce disease symptoms except in a few genotypes. Among the 13 rice genotypes screened, AAT9 expressed a highly resistant response, and AAT4, AAT6, AAT10, AAT11, AAT13, AAT17 and AAT18 expressed resistance at various stages. The results will be useful for selecting elite genotypes for disease tolerance where rice blast is prevalent. In addition, the resistant genotypes can serve as a gene pool used in breeding programmes to develop new resistant genotypes.