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Liu Z, Zhang T, Xu R, Liu B, Han Y, Dong W, Xie Q, Tang Z, Lei X, Wang C, Fu Y, Gao C. BpGRP1 acts downstream of BpmiR396c/BpGRF3 to confer salt tolerance in Betula platyphylla. Plant Biotechnol J 2024; 22:131-147. [PMID: 37703500 PMCID: PMC10754015 DOI: 10.1111/pbi.14173] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Subscribe] [Scholar Register] [Received: 02/11/2023] [Revised: 07/22/2023] [Accepted: 08/26/2023] [Indexed: 09/15/2023]
Abstract
Glycine-rich RNA-binding proteins (GRPs) have been implicated in the responses of plants to environmental stresses, but the function of GRP genes involved in salt stress and the underlying mechanism remain unclear. In this study, we identified BpGRP1 (glycine-rich RNA-binding protein), a Betula platyphylla gene that is induced under salt stress. The physiological and molecular responses to salt tolerance were investigated in both BpGRP1-overexpressing and suppressed conditions. BpGRF3 (growth-regulating factor 3) was identified as a regulatory factor upstream of BpGRP1. We demonstrated that overexpression of BpGRF3 significantly increased the salt tolerance of birch, whereas the grf3-1 mutant exhibited the opposite effect. Further analysis revealed that BpGRF3 and its interaction partner, BpSHMT, function upstream of BpGRP1. We demonstrated that BpmiR396c, as an upstream regulator of BpGRF3, could negatively regulate salt tolerance in birch. Furthermore, we uncovered evidence showing that the BpmiR396c/BpGRF3 regulatory module functions in mediating the salt response by regulating the associated physiological pathways. Our results indicate that BpmiR396c regulates the expression of BpGRF3, which plays a role in salt tolerance by targeting BpGRP1.
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Affiliation(s)
- Zhongyuan Liu
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
- Key Laboratory of Forest Plant EcologyMinistry of EducationNortheast Forestry UniversityHarbinChina
- College of ChemistryChemical Engineering and Resource UtilizationNortheast Forestry UniversityHarbinChina
| | - Tengqian Zhang
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Ruiting Xu
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Baichao Liu
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Yating Han
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Wenfang Dong
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Qingjun Xie
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Zihao Tang
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Xiaojin Lei
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Chao Wang
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
| | - Yujie Fu
- Key Laboratory of Forest Plant EcologyMinistry of EducationNortheast Forestry UniversityHarbinChina
- College of ChemistryChemical Engineering and Resource UtilizationNortheast Forestry UniversityHarbinChina
| | - Caiqiu Gao
- State Key Laboratory of Tree Genetics and BreedingNortheast Forestry UniversityHarbinChina
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Lu J, Wang Z, Li J, Zhao Q, Qi F, Wang F, Xiaoyang C, Tan G, Wu H, Deyholos MK, Wang N, Liu Y, Zhang J. Genome-Wide Analysis of Flax ( Linum usitatissimum L.) Growth-Regulating Factor (GRF) Transcription Factors. Int J Mol Sci 2023; 24:17107. [PMID: 38069430 PMCID: PMC10707037 DOI: 10.3390/ijms242317107] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/07/2023] [Revised: 11/28/2023] [Accepted: 12/01/2023] [Indexed: 12/18/2023] Open
Abstract
Flax is an important cash crop globally with a variety of commercial uses. It has been widely used for fiber, oil, nutrition, feed and in composite materials. Growth regulatory factor (GRF) is a transcription factor family unique to plants, and is involved in regulating many processes of growth and development. Bioinformatics analysis of the GRF family in flax predicted 17 LuGRF genes, which all contained the characteristic QLQ and WRC domains. Equally, 15 of 17 LuGRFs (88%) are predicted to be regulated by lus-miR396 miRNA. Phylogenetic analysis of GRFs from flax and several other well-characterized species defined five clades; LuGRF genes were found in four clades. Most LuGRF gene promoters contained cis-regulatory elements known to be responsive to hormones and stress. The chromosomal locations and collinearity of LuGRF genes were also analyzed. The three-dimensional structure of LuGRF proteins was predicted using homology modeling. The transcript expression data indicated that most LuGRF family members were highly expressed in flax fruit and embryos, whereas LuGRF3, LuGRF12 and LuGRF16 were enriched in response to salt stress. Real-time quantitative fluorescent PCR (qRT-PCR) showed that both LuGRF1 and LuGRF11 were up-regulated under ABA and MeJA stimuli, indicating that these genes were involved in defense. LuGRF1 was demonstrated to be localized to the nucleus as expected for a transcription factor. These results provide a basis for further exploration of the molecular mechanism of LuGRF gene function and obtaining improved flax breeding lines.
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Affiliation(s)
- Jianyu Lu
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Zhenhui Wang
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Jinxi Li
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Qian Zhao
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Fan Qi
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Fu Wang
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Chunxiao Xiaoyang
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Guofei Tan
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Hanlu Wu
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Michael K. Deyholos
- Department of Biology, University of British Columbia, Okanagan, Kelowna, BC V5K1K5, Canada;
| | - Ningning Wang
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
| | - Yingnan Liu
- Institute of Natural Resources and Ecology, Heilongjiang Academy of Science, Harbin 150040, China
| | - Jian Zhang
- Faculty of Agronomy, Jilin Agricultural University, Changchun 130118, China; (J.L.); (Z.W.); (J.L.); (Q.Z.); (F.Q.); (F.W.); (C.X.); (G.T.); wuhan (H.W.); (N.W.)
- Department of Biology, University of British Columbia, Okanagan, Kelowna, BC V5K1K5, Canada;
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