In response to far-red light(FR),FAR-RED ELONGATED HYPOCOTYL 1(FHY1)transports the photoactivated phytochrome A(phyA),the primary FR photoreceptor,into the nucleus,where it initiates FR signaling in plants.Light promo...In response to far-red light(FR),FAR-RED ELONGATED HYPOCOTYL 1(FHY1)transports the photoactivated phytochrome A(phyA),the primary FR photoreceptor,into the nucleus,where it initiates FR signaling in plants.Light promotes the 26S proteasome-mediated degradation of FHY1,which desensitizes FR signaling,but the underlying regulatory mechanism remains largely unknown.Here,we show that reversible SUMOylation of FHY1 tightly regulates this process.Lysine K32(K32)and K103 are major SUMOylation sites of FHY1.We found that FR exposure promotes the SUMOylation of FHY1,which accelerates its degradation.Furthermore,we discovered that ARABIDOPSIS SUMO PROTEASE 1(ASP1)interacts with FHY1 in the nucleus under FR and facilitates its deSUMOylation.FHY1 was strongly SUMOylated and its protein level was decreased in the asp1-1 loss-of-function mutant compared with that in the wild type under FR.Consistently,asp1-1 seedlings exhibited a decreased sensitivity to FR,suggesting that ASP1 plays an important role in the maintenance of proper FHY1 levels under FR.Genetic analysis further revealed that ASP1 regulates FR signaling through an FHY1-and phyA-dependent pathway.Interestingly,We found that continuous FR inhibits ASP1 accumulation,perhaps contributing to the desensitization of FR signaling.Taken together,these results indicate that FR-induced SUMOylation and ASP1-dependent deSUMOylation of FHY1 represent a key regulatory mechanism that fine-tunes FR signaling.展开更多
Plant immune responses are tightly regulated to ensure their appropriate deployment. Overexpression of TOPLESS-RELATED 1 (TPR1), a SUPPRESSOR OF npr1-1, CONSTITUTIVE 1 (SNC1)-interacting protein, results in autoimmuni...Plant immune responses are tightly regulated to ensure their appropriate deployment. Overexpression of TOPLESS-RELATED 1 (TPR1), a SUPPRESSOR OF npr1-1, CONSTITUTIVE 1 (SNC1)-interacting protein, results in autoimmunity that reduces plant growth and development. However, how TPR1 activity is regulated remains unknown. Loss of function of SIZ1, a (SUMO) E3 ligase, induces an autoimmune response, partially due to elevated SNC1 levels. Here we show that SNC1 expression is upregulated in Arabidopsis thaliana siz1-2 due to positive-feedback regulation by salicylic acid. SIZ1 physically interacts with TPR1 and facilitates its SUMO modification. The K282 and K721 residues in TPR1 serve as critical SUMO attachment sites. Simultaneous introduction of K282R and K721R substitutions in TPR1 blocked its SUMOylation, enhaneed its transcriptional co-repressor activity, and increased its association with HISTONE DEACETYLASE 19 (HDA19), suggesting that SUMOylation of TPR1 represses its transcriptional co-repressor activity and inhibits its interaction with HDA19. In agreement with this finding, the simultaneous introduction of K282R and K721R substitutions enhanced TPR1 mediated immunity, and the tpr1 mutation partially suppressed autoimmunity in siz1-2. These results demonstrate that SIZ1-mediated SUMOylation of TPR1 represses plant immunity, which at least partly contributes to the suppression of autoimmunity under nonpathogenic conditions to ensure proper plant development.展开更多
Idiopathic asthenozoospermia,a common factor in male infertility,is characterized by altered sperm motility function in fresh ejaculate.Although theβ-defensin 126(DEFB126)protein is associated with asthenozoospermia,...Idiopathic asthenozoospermia,a common factor in male infertility,is characterized by altered sperm motility function in fresh ejaculate.Although theβ-defensin 126(DEFB126)protein is associated with asthenozoospermia,DEFB126 gene polymorphisms have not been extensively studied.Therefore,the association between DEFB126 gene polymorphisms and asthenozoospermia requires further investigation.Screening was performed by semen analysis,karyotype analysis,and Y microdeletion detection,and 102 fertile men and 106 men with asthenozoospermia in Chengdu,China,were selected for DEFB126 gene sequence analyses.Seven nucleotide mutations and two nucleotide deletions in the DEFB126 gene were detected.rs11467417(317-318 del/del),rs11467497(163-166 wt/del),c.152T>C,and c.227A>G were significantly different between the control and asthenozoospermia groups,likely representing high-risk genetic factors for asthenozoospermia among males.DEFB126 expression was not observed in sperm with rs11467497 homozygous deletion and was unstable in sperm with rs11467417 homozygous deletion.The rs11467497 four-nucleotide deletion leads to truncation of DEFB126 at the carboxy-terminus,and the rs11467417 binucleotide deletion produces a non-stop messenger RNA(mRNA).The above deletions may be responsible for male hypofertility and infertility by reducing DEFB126 affinity to sperm surfaces.Based on in silico analysis,the amino acids 51M and 76K are located in the highly conserved domain;c.152T>C(M51T)and c.227A>G(K76R)are predicted to be damaging and capable of changing alternative splice,structural and posttranslational modification sites of the RNA,as well as the secondary structure,structural stability,and hydrophobicity of the protein,suggesting that these mutations are associated with asthenozoospermia.展开更多
A new species,Meligethes polyedricus sp.nov.,and five newly recorded species of the genus Meligethes Stephens(Coleoptera:Nitidulidae:Meligethinae) in China are described and illustrated.A general catalogue of Meligeth...A new species,Meligethes polyedricus sp.nov.,and five newly recorded species of the genus Meligethes Stephens(Coleoptera:Nitidulidae:Meligethinae) in China are described and illustrated.A general catalogue of Meligethes from China is provided.The materials examined are deposited in Institute of Zoology,Chinese Academy of Sciences,Beijing,China(IZCAS).展开更多
基金This work was supported by the National Natural Science Foundation of China(grant nos.31670186 and 31870238)the Chinese Academy of Sciences(ZDRW-ZS-2019-2-0101,KFJ-STS-ZDTP-076-1,and The Innovative Academy of Seed Design).
文摘In response to far-red light(FR),FAR-RED ELONGATED HYPOCOTYL 1(FHY1)transports the photoactivated phytochrome A(phyA),the primary FR photoreceptor,into the nucleus,where it initiates FR signaling in plants.Light promotes the 26S proteasome-mediated degradation of FHY1,which desensitizes FR signaling,but the underlying regulatory mechanism remains largely unknown.Here,we show that reversible SUMOylation of FHY1 tightly regulates this process.Lysine K32(K32)and K103 are major SUMOylation sites of FHY1.We found that FR exposure promotes the SUMOylation of FHY1,which accelerates its degradation.Furthermore,we discovered that ARABIDOPSIS SUMO PROTEASE 1(ASP1)interacts with FHY1 in the nucleus under FR and facilitates its deSUMOylation.FHY1 was strongly SUMOylated and its protein level was decreased in the asp1-1 loss-of-function mutant compared with that in the wild type under FR.Consistently,asp1-1 seedlings exhibited a decreased sensitivity to FR,suggesting that ASP1 plays an important role in the maintenance of proper FHY1 levels under FR.Genetic analysis further revealed that ASP1 regulates FR signaling through an FHY1-and phyA-dependent pathway.Interestingly,We found that continuous FR inhibits ASP1 accumulation,perhaps contributing to the desensitization of FR signaling.Taken together,these results indicate that FR-induced SUMOylation and ASP1-dependent deSUMOylation of FHY1 represent a key regulatory mechanism that fine-tunes FR signaling.
基金the Chinese Academy of Sciences (XDA08010105)the National Natural Science Foundation of China (grant no. 31670186 and 31471363).
文摘Plant immune responses are tightly regulated to ensure their appropriate deployment. Overexpression of TOPLESS-RELATED 1 (TPR1), a SUPPRESSOR OF npr1-1, CONSTITUTIVE 1 (SNC1)-interacting protein, results in autoimmunity that reduces plant growth and development. However, how TPR1 activity is regulated remains unknown. Loss of function of SIZ1, a (SUMO) E3 ligase, induces an autoimmune response, partially due to elevated SNC1 levels. Here we show that SNC1 expression is upregulated in Arabidopsis thaliana siz1-2 due to positive-feedback regulation by salicylic acid. SIZ1 physically interacts with TPR1 and facilitates its SUMO modification. The K282 and K721 residues in TPR1 serve as critical SUMO attachment sites. Simultaneous introduction of K282R and K721R substitutions in TPR1 blocked its SUMOylation, enhaneed its transcriptional co-repressor activity, and increased its association with HISTONE DEACETYLASE 19 (HDA19), suggesting that SUMOylation of TPR1 represses its transcriptional co-repressor activity and inhibits its interaction with HDA19. In agreement with this finding, the simultaneous introduction of K282R and K721R substitutions enhanced TPR1 mediated immunity, and the tpr1 mutation partially suppressed autoimmunity in siz1-2. These results demonstrate that SIZ1-mediated SUMOylation of TPR1 represses plant immunity, which at least partly contributes to the suppression of autoimmunity under nonpathogenic conditions to ensure proper plant development.
文摘Idiopathic asthenozoospermia,a common factor in male infertility,is characterized by altered sperm motility function in fresh ejaculate.Although theβ-defensin 126(DEFB126)protein is associated with asthenozoospermia,DEFB126 gene polymorphisms have not been extensively studied.Therefore,the association between DEFB126 gene polymorphisms and asthenozoospermia requires further investigation.Screening was performed by semen analysis,karyotype analysis,and Y microdeletion detection,and 102 fertile men and 106 men with asthenozoospermia in Chengdu,China,were selected for DEFB126 gene sequence analyses.Seven nucleotide mutations and two nucleotide deletions in the DEFB126 gene were detected.rs11467417(317-318 del/del),rs11467497(163-166 wt/del),c.152T>C,and c.227A>G were significantly different between the control and asthenozoospermia groups,likely representing high-risk genetic factors for asthenozoospermia among males.DEFB126 expression was not observed in sperm with rs11467497 homozygous deletion and was unstable in sperm with rs11467417 homozygous deletion.The rs11467497 four-nucleotide deletion leads to truncation of DEFB126 at the carboxy-terminus,and the rs11467417 binucleotide deletion produces a non-stop messenger RNA(mRNA).The above deletions may be responsible for male hypofertility and infertility by reducing DEFB126 affinity to sperm surfaces.Based on in silico analysis,the amino acids 51M and 76K are located in the highly conserved domain;c.152T>C(M51T)and c.227A>G(K76R)are predicted to be damaging and capable of changing alternative splice,structural and posttranslational modification sites of the RNA,as well as the secondary structure,structural stability,and hydrophobicity of the protein,suggesting that these mutations are associated with asthenozoospermia.
基金supported by the Fundamental Research Funds for Chinese Central Universities(Z109021305)
文摘A new species,Meligethes polyedricus sp.nov.,and five newly recorded species of the genus Meligethes Stephens(Coleoptera:Nitidulidae:Meligethinae) in China are described and illustrated.A general catalogue of Meligethes from China is provided.The materials examined are deposited in Institute of Zoology,Chinese Academy of Sciences,Beijing,China(IZCAS).
