Your search keyword '"Yaqin, Wang"' showing total 5 results

1. Genome-wide identification and expression analysis of wall-associated kinase (WAK) and WAK-like kinase gene family in response to tomato yellow leaf curl virus infection in Nicotiana benthamiana

Author

Xueting Zhong, Jiapeng Li, Lianlian Yang, Xiaoyin Wu, Hong Xu, Tao Hu, Yajun Wang, Yaqin Wang, and Zhanqi Wang

Subjects

Nicotiana benthamiana, WAK/WAKL gene family, Phylogenetics, TYLCV infection, Expression profile, Stress response, Botany, QK1-989

Abstract

Abstract Background Tomato yellow leaf curl virus (TYLCV) is a major monopartite virus in the family Geminiviridae and has caused severe yield losses in tomato and tobacco planting areas worldwide. Wall-associated kinases (WAKs) and WAK-like kinases (WAKLs) are a subfamily of the receptor-like kinase family implicated in cell wall signaling and transmitting extracellular signals to the cytoplasm, thereby regulating plant growth and development and resistance to abiotic and biotic stresses. Recently, many studies on WAK/WAKL family genes have been performed in various plants under different stresses; however, identification and functional survey of the WAK/WAKL gene family of Nicotiana benthamiana have not yet been performed, even though its genome has been sequenced for several years. Therefore, in this study, we aimed to identify the WAK/WAKL gene family in N. benthamiana and explore their possible functions in response to TYLCV infection. Results Thirty-eight putative WAK/WAKL genes were identified and named according to their locations in N. benthamiana. Phylogenetic analysis showed that NbWAK/WAKLs are clustered into five groups. The protein motifs and gene structure compositions of NbWAK/WAKLs appear to be highly conserved among the phylogenetic groups. Numerous cis-acting elements involved in phytohormone and/or stress responses were detected in the promoter regions of NbWAK/WAKLs. Moreover, gene expression analysis revealed that most of the NbWAK/WAKLs are expressed in at least one of the examined tissues, suggesting their possible roles in regulating the growth and development of plants. Virus-induced gene silencing and quantitative PCR analyses demonstrated that NbWAK/WAKLs are implicated in regulating the response of N. benthamiana to TYLCV, ten of which were dramatically upregulated in locally or systemically infected leaves of N. benthamiana following TYLCV infection. Conclusions Our study lays an essential base for the further exploration of the potential functions of NbWAK/WAKLs in plant growth and development and response to viral infections in N. benthamiana.

Published

2023

2. SUMO E3 ligase AtMMS21 is required for normal meiosis and gametophyte development in Arabidopsis

Author

Dongke Yuan, Yiyang Liu, Yaqin Wang, Shengchun Zhang, Panglian Xu, Jinju Du, Ming Liu, Songfeng Shi, Chengwei Yang, and Jianbin Lai

Subjects

Arabidopsis thaliana, DNA repair, Ubiquitin-Protein Ligases, SUMO protein, Arabidopsis, Germination, Plant Science, Pollen Tube, medicine.disease_cause, Genes, Plant, AtMMS21, Chromosomes, Plant, Ligases, Meiosis, Gene Expression Regulation, Plant, medicine, RNA, Messenger, Pollination, Crosses, Genetic, Genetics, Gametogenesis, Plant, Mutation, biology, Arabidopsis Proteins, Chromosome, food and beverages, Sumoylation, biology.organism_classification, Ubiquitin ligase, Fertility, biology.protein, Germ Cells, Plant, Gametophyte development, Research Article

Abstract

Background MMS21 is a SUMO E3 ligase that is conserved in eukaryotes, and has previously been shown to be required for DNA repair and maintenance of chromosome integrity. Loss of the Arabidopsis MMS21 causes defective meristems and dwarf phenotypes. Results Here, we show a role for AtMMS21 during gametophyte development. AtMMS21 deficient plants are semisterile with shorter mature siliques and abortive seeds. The mms21-1 mutant shows reduced pollen number, and viability, and germination and abnormal pollen tube growth. Embryo sac development is also compromised in the mutant. During meiosis, chromosome mis-segregation and fragmentation is observed, and the products of meiosis are frequently dyads or irregular tetrads. Several transcripts for meiotic genes related to chromosome maintenance and behavior are altered. Moreover, accumulation of SUMO-protein conjugates in the mms21-1 pollen grains is distinct from that in wild-type. Conclusions Thus, these results suggest that AtMMS21 mediated SUMOylation may stabilize the expression and accumulation of meiotic proteins and affect gametophyte development.

Published

2013

3. Functional characterization of DnSIZ1, a SIZ/PIAS-type SUMO E3 ligase from Dendrobium.

Author

Feng Liu, Xiao Wang, Mengying Su, Mengyuan Yu, Shengchun Zhang, Jianbin Lai, Chengwei Yang, and Yaqin Wang

Subjects

SMALL ubiquitin-related modifier proteins, POLYPEPTIDES, DENDROBIUM, LIGASES, ARABIDOPSIS

Abstract

Background: SUMOylation is an important post-translational modification of eukaryotic proteins that involves the reversible conjugation of a small ubiquitin-related modifier (SUMO) polypeptide to its specific protein substrates, thereby regulating numerous complex cellular processes. The PIAS (protein inhibitor of activated signal transducers and activators of transcription [STAT]) and SIZ (scaffold attachment factor A/B/acinus/PIAS [SAP] and MIZ) proteins are SUMO E3 ligases that modulate SUMO conjugation. The characteristic features and SUMOylation mechanisms of SIZ1 protein in monocotyledon are poorly understood. Here, we examined the functions of a homolog of Arabidopsis SIZ1, a functional SIZ/PIAS-type SUMO E3 ligase from Dendrobium. Results: In Dendrobium, the predicted DnSIZ1 protein has domains that are highly conserved among SIZ/PIAS-type proteins. DnSIZ1 is widely expressed in Dendrobium organs and has a up-regulated trend by treatment with cold, high temperature and wounding. The DnSIZ1 protein localizes to the nucleus and shows SUMO E3 ligase activity when expressed in an Escherichia coli reconstitution system. Moreover, ectopic expression of DnSIZ1 in the Arabidopsis siz1-2 mutant partially complements several phenotypes and results in enhanced levels of SUMO conjugates in plants exposed to heat shock conditions. We observed that DnSIZ1 acts as a negative regulator of flowering transition which may be via a vernalization-induced pathway. In addition, ABA-hypersensitivity of siz1-2 seed germination can be partially suppressed by DnSIZ1. Conclusions: Our results suggest that DnSIZ1 is a functional homolog of the Arabidopsis SIZ1 with SUMO E3 ligase activity and may play an important role in the regulation of Dendrobium stress responses, flowering and development. [ABSTRACT FROM AUTHOR]

Published

2015

4. SUMO E3 ligase AtMMS21 is required for normal meiosis and gametophyte development in Arabidopsis.

Author

Ming Liu, Songfeng Shi, Shengchun Zhang, Panglian Xu, Jianbin Lai, Yiyang Liu, Dongke Yuan, Yaqin Wang, Jinju Du, and Chengwei Yang

Subjects

ARABIDOPSIS, MEIOSIS, GAMETOPHYTES, PLANT reproduction, PLANT chromosomes

Abstract

Background MMS21 is a SUMO E3 ligase that is conserved in eukaryotes, and has previously been shown to be required for DNA repair and maintenance of chromosome integrity. Loss of the Arabidopsis MMS21 causes defective meristems and dwarf phenotypes. Results Here, we show a role for AtMMS21 during gametophyte development. AtMMS21 deficient plants are semisterile with shorter mature siliques and abortive seeds. The mms21-1 mutant shows reduced pollen number, and viability, and germination and abnormal pollen tube growth. Embryo sac development is also compromised in the mutant. During meiosis, chromosome mis-segregation and fragmentation is observed, and the products of meiosis are frequently dyads or irregular tetrads. Several transcripts for meiotic genes related to chromosome maintenance and behavior are altered. Moreover, accumulation of SUMOprotein conjugates in the mms21-1 pollen grains is distinct from that in wild-type. Conclusions Thus, these results suggest that AtMMS21 mediated SUMOylation may stabilize the expression and accumulation of meiotic proteins and affect gametophyte development. [ABSTRACT FROM AUTHOR]

Published

2014

5. Functional characterization of DnSIZ1, a SIZ/PIAS-type SUMO E3 ligase from Dendrobium

Author

Shengchun Zhang, Jianbin Lai, Yaqin Wang, Chengwei Yang, Mengying Su, Mengyuan Yu, Feng Liu, and Xiao Wang

Subjects

Ubiquitin-Protein Ligases, Molecular Sequence Data, SUMO protein, Arabidopsis, Flowering time regulation, SUMO enzymes, Plant Science, Dendrobium, Gene Expression Regulation, Plant, Sequence Analysis, Protein, Phylogeny, Plant Proteins, Regulation of gene expression, biology, Sumoylation, Stress responses, biology.organism_classification, SUMO E3 ligase, Plants, Genetically Modified, Molecular biology, Ubiquitin ligase, Cell biology, biology.protein, Ectopic expression, Sequence Alignment, Heat-Shock Response, Research Article, SUMO conjugates

Abstract

Background SUMOylation is an important post-translational modification of eukaryotic proteins that involves the reversible conjugation of a small ubiquitin-related modifier (SUMO) polypeptide to its specific protein substrates, thereby regulating numerous complex cellular processes. The PIAS (protein inhibitor of activated signal transducers and activators of transcription [STAT]) and SIZ (scaffold attachment factor A/B/acinus/PIAS [SAP] and MIZ) proteins are SUMO E3 ligases that modulate SUMO conjugation. The characteristic features and SUMOylation mechanisms of SIZ1 protein in monocotyledon are poorly understood. Here, we examined the functions of a homolog of Arabidopsis SIZ1, a functional SIZ/PIAS-type SUMO E3 ligase from Dendrobium. Results In Dendrobium, the predicted DnSIZ1 protein has domains that are highly conserved among SIZ/PIAS-type proteins. DnSIZ1 is widely expressed in Dendrobium organs and has a up-regulated trend by treatment with cold, high temperature and wounding. The DnSIZ1 protein localizes to the nucleus and shows SUMO E3 ligase activity when expressed in an Escherichia coli reconstitution system. Moreover, ectopic expression of DnSIZ1 in the Arabidopsis siz1-2 mutant partially complements several phenotypes and results in enhanced levels of SUMO conjugates in plants exposed to heat shock conditions. We observed that DnSIZ1 acts as a negative regulator of flowering transition which may be via a vernalization-induced pathway. In addition, ABA-hypersensitivity of siz1-2 seed germination can be partially suppressed by DnSIZ1. Conclusions Our results suggest that DnSIZ1 is a functional homolog of the Arabidopsis SIZ1 with SUMO E3 ligase activity and may play an important role in the regulation of Dendrobium stress responses, flowering and development. Electronic supplementary material The online version of this article (doi:10.1186/s12870-015-0613-3) contains supplementary material, which is available to authorized users.