Elucidating the genetic basis of natural variation in grain size and weight among rice varieties can help breeders develop high-yielding varieties.We identified a novel gene,GW3a(Grain Weight 3a)(LOC_Os03g27350),that ...Elucidating the genetic basis of natural variation in grain size and weight among rice varieties can help breeders develop high-yielding varieties.We identified a novel gene,GW3a(Grain Weight 3a)(LOC_Os03g27350),that affects rice grain size and weight.gw3a mutants showed higher total starch content and dry matter accumulation than the wild type(WT),Nipponbare,suggesting that GW3a negatively regulates grain size and weight.Moreover,our study found that GW3a interacted with OsATG8 by cleaving it,suggesting that GW3a may be involved in the assembly of autophagosomes and starch degradation in plants.The haplotype analysis of GW3a showed functional differences between indica and japonica rice.Taken together,we conclude that GW3a is expressed in the autophagosome pathway regulating starch metabolism in rice,affecting yield-related traits,such as grain size,grain weight and thousand grain weight(TGW).Our findings also shed new light on autophagy-mediated yield trait regulation,proposing a possible strategy for the genetic improvement of high-yield germplasm in rice.展开更多
Objective:Mahuang Guizhi Decoction(MGD),an essential herbal pair in traditional Chinese medicine,is able to release cold,fever and asthma,mainly containing alkaloids,flavonoids,phenylpropanoids and amino acids.However...Objective:Mahuang Guizhi Decoction(MGD),an essential herbal pair in traditional Chinese medicine,is able to release cold,fever and asthma,mainly containing alkaloids,flavonoids,phenylpropanoids and amino acids.However,the absorption and distribution of these four category compounds in vivo still remained unclearly.Methods:In our research,we utilized UPLC-Q-TOF-MS technique to identify the constituents within MGD,as well as the prototypes of MGD and their metabolites absorbed in plasma and brain.We further profiled the drug-time curve of prototypes and metabolites of MGD both in plasma and brain.Results:Our results showed that 105 constituents were characterized in MGD.Thirty of them could be absorbed into blood,and ten of them could be distributed into brain.We also discovered eight new bio-transformed metabolites in blood,and a half of which could pass through the blood–brain barrier.In addition,all components detected in vivo could be absorbed and distributed immediately.Conclusion:These findings provide an approachable method to analyze the potential bio-active compounds in MGD and their in vivo behaviors,which could promote the efficacious material basis study of MGD and the security of clinical utilization.展开更多
基金This research was supported by the National Natural Science Foundation of China(32160485)Jiangxi Double Thousand Plan(jxsq2023201057)Key R&D Plan of Jiangxi Province(20224BBF62001,20224BBF61030).
文摘Elucidating the genetic basis of natural variation in grain size and weight among rice varieties can help breeders develop high-yielding varieties.We identified a novel gene,GW3a(Grain Weight 3a)(LOC_Os03g27350),that affects rice grain size and weight.gw3a mutants showed higher total starch content and dry matter accumulation than the wild type(WT),Nipponbare,suggesting that GW3a negatively regulates grain size and weight.Moreover,our study found that GW3a interacted with OsATG8 by cleaving it,suggesting that GW3a may be involved in the assembly of autophagosomes and starch degradation in plants.The haplotype analysis of GW3a showed functional differences between indica and japonica rice.Taken together,we conclude that GW3a is expressed in the autophagosome pathway regulating starch metabolism in rice,affecting yield-related traits,such as grain size,grain weight and thousand grain weight(TGW).Our findings also shed new light on autophagy-mediated yield trait regulation,proposing a possible strategy for the genetic improvement of high-yield germplasm in rice.
基金supported by Shenzhen Science and Technology Program(No.JCYJ20210324140204011)Shenzhen Science and Technology Program(No.JSGG20210802093208023)+2 种基金Shenzhen Science and Technology Program(No.ZDSYS201606081515458)Foundation of Guangdong Provincial Key Laboratory of Functional Substances in Medicinal Edible Resources and Healthcare Products(No.GPKLFSHP202101)the Sanming Project of Medicine in Shenzhen(No.SZZYSM202111002).
文摘Objective:Mahuang Guizhi Decoction(MGD),an essential herbal pair in traditional Chinese medicine,is able to release cold,fever and asthma,mainly containing alkaloids,flavonoids,phenylpropanoids and amino acids.However,the absorption and distribution of these four category compounds in vivo still remained unclearly.Methods:In our research,we utilized UPLC-Q-TOF-MS technique to identify the constituents within MGD,as well as the prototypes of MGD and their metabolites absorbed in plasma and brain.We further profiled the drug-time curve of prototypes and metabolites of MGD both in plasma and brain.Results:Our results showed that 105 constituents were characterized in MGD.Thirty of them could be absorbed into blood,and ten of them could be distributed into brain.We also discovered eight new bio-transformed metabolites in blood,and a half of which could pass through the blood–brain barrier.In addition,all components detected in vivo could be absorbed and distributed immediately.Conclusion:These findings provide an approachable method to analyze the potential bio-active compounds in MGD and their in vivo behaviors,which could promote the efficacious material basis study of MGD and the security of clinical utilization.
