- Information
- Symbol: OsNF-YB1
- MSU: LOC_Os02g49410
- RAPdb: Os02g0725900
- Publication
- Identification, characterization and interaction of HAP family genes in rice, 2008, Mol Genet Genomics.
- Ternary complex formation between MADS-box transcription factors and the histone fold protein NF-YB, 2002, J Biol Chem.
- OsNF-YB1, a rice endosperm-specific gene, is essential for cell proliferation in endosperm development., 2014, Gene.
- NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm, 2015, Cell Res.
- Rice aleurone layer specific OsNF-YB1 regulates grain filling and endosperm development by interacting with an ERF transcription factor., 2016, J Exp Bot.
- RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells, 2021, Front Plant Sci.
- Genbank accession number
- Key message
- Transcriptional profiling and promoter analysis revealed that OsNF-YB1 was highly expressed at the early stages of rice endosperm development (5-7 DAP, days after pollination)
- Repression of OsNF-YB1 resulted in differential expression of the genes in cell cycle pathway, which caused abnormal seeds with defected embryo and endosperm
- Basic cytological analysis demonstrated that the reduced endosperm cell numbers disintegrated with the development of those abnormal seeds in OsNF-YB1 RNAi plants
- Taken together, these results suggested that the endosperm-specific gene OsNF-YB1 might be a cell cycle regulator and played a role in maintaining the endosperm cell proliferation
- NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm
- Rice aleurone layer specific OsNF-YB1 regulates grain filling and endosperm development by interacting with an ERF transcription factor.
- Knockdown of OsNF-YB1 expression by RNAi significantly retarded grain filling, leading to small grains with chalky endosperm as well as altered starch quality
- RNA sequencing analysis revealed that genes related to membrane transport and ATP biosynthesis were enriched in the down-regulated category in OsNF-YB1 RNAi plants, which is consistent with the crucial role of OsNF-YB1 in rice grain filling and endosperm development
- It is proposed that OsNF-YB1 specifically regulate the transcription of downstream genes during rice endosperm development by forming protein complexes consisting of OsNF-YB1, OsNF-YC and ERF, providing informative insights into the molecular functional mechanisms of the NF-Y factor
- Interestingly, different from the binding sites reported for other NF-Y complexes, the GCC box, the binding motif of ERF transcription factors, was enriched in the binding peaks of OsNF-YB1
- Whereas OsNF-YB1 shows subcellular localization in both the cytosol and the nucleus in roots, it was specifically targeted to the nucleus of aleurone layer cells, which was facilitated by interacting with OsNF-YC proteins preferentially expressed in the aleurone layer
- Identification of the genome-wide targets of OsNF-YB1 by ChIP sequencing showed that OsNF-YB1 directly regulates genes involved in the transport of nutrients such as sugar and amino acids
- Seeds of osnf-yb1 and osbzip76 mutants showed reduced size and reduced apparent amylose content.
- Suppression of RGB1 expression also resulted in the lower auxin content in grains, which was correlated with the lower expression of OsNF-YB1 and OsYUC11 during grain filling stage
- Connection
- OsMADS18, OsNF-YB1, Ternary complex formation between MADS-box transcription factors and the histone fold protein NF-YB, OsMADS18, alone or in combination with a natural partner, interacts with OsNF-YB1 through the MADS and I regions
- OsNF-YB1, OsSUT1, NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm, In summary, the aleurone-specific NF-YB1, with stronger expression at the dorsal side, plays an important role in regulating rice grain filling through activating the expression of SUT1, SUT3 and SUT4
- OsNF-YB1, OsSUT4, NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm, In summary, the aleurone-specific NF-YB1, with stronger expression at the dorsal side, plays an important role in regulating rice grain filling through activating the expression of SUT1, SUT3 and SUT4
- OsNF-YB1, OsSUT3, NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm, In summary, the aleurone-specific NF-YB1, with stronger expression at the dorsal side, plays an important role in regulating rice grain filling through activating the expression of SUT1, SUT3 and SUT4
- OsMST4, OsNF-YB1, NF-YB1-regulated expression of sucrose transporters in aleurone facilitates sugar loading to rice endosperm, Real-time PCR performed in caryopses collected at 5 DAP showed that levels of SUT1, SUT3, SUT4 and MST4 expression were reduced in nfyb1-1, while no evident reduction was observed for SUT2, suggesting that SUT1, SUT3, SUT4 and MST4 may be regulated by NF-YB1
- OsbZIP76, OsNF-YB1, OsbZIP76 interacts with OsNF-YBs and regulates endosperm cellularization in rice Oryza sativa., As a putative transcription factor, OsbZIP76 alone lacked transcriptional activation activity; however, it interacted with the nuclear factor Y (NF-Y) family transcription factors OsNF-YB9 and OsNF-YB1 in yeast and in planta
- OsbZIP76, OsNF-YB1, OsbZIP76 interacts with OsNF-YBs and regulates endosperm cellularization in rice Oryza sativa., Seeds of osnf-yb1 and osbzip76 mutants showed reduced size and reduced apparent amylose content
- OsNF-YB1, OsYUC11, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells, Suppression of RGB1 expression also resulted in the lower auxin content in grains, which was correlated with the lower expression of OsNF-YB1 and OsYUC11 during grain filling stage
- OsNF-YB1, OsYUC11, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells, Further biochemical evidence showed that OsYUC11 expression was under control of OsNF-YB1 by its interaction with promoter of OsYUC11
- OsNF-YB1, OsYUC11, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells, OsNF-YB1, which acts as a key downstream effector of RGB1, interacts directly with the promoter of OsYUC11 and stimulates the OsYUC11 expression, thereby regulating auxin biosynthesis and starch accumulation and grain size
- OsNF-YB1, RGB1~OsRGB1, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells, Suppression of RGB1 expression also resulted in the lower auxin content in grains, which was correlated with the lower expression of OsNF-YB1 and OsYUC11 during grain filling stage
- OsNF-YB1, RGB1~OsRGB1, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells, OsNF-YB1, which acts as a key downstream effector of RGB1, interacts directly with the promoter of OsYUC11 and stimulates the OsYUC11 expression, thereby regulating auxin biosynthesis and starch accumulation and grain size
- OsNF-YB1, OsYUC11, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells , Suppression of RGB1 expression also resulted in the lower auxin content in grains, which was correlated with the lower expression of OsNF-YB1 and OsYUC11 during grain filling stage
- OsNF-YB1, OsYUC11, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells , Further biochemical evidence showed that OsYUC11 expression was under control of OsNF-YB1 by its interaction with promoter of OsYUC11
- OsNF-YB1, OsYUC11, RGB1 Regulates Grain Development and Starch Accumulation Through Its Effect on OsYUC11-Mediated Auxin Biosynthesis in Rice Endosperm Cells , OsNF-YB1, which acts as a key downstream effector of RGB1, interacts directly with the promoter of OsYUC11 and stimulates the OsYUC11 expression, thereby regulating auxin biosynthesis and starch accumulation and grain size
- OsNF-YB1, OsYUC11, OsYUC11-mediated auxin biosynthesis is essential for endosperm development of rice, A rice transcription factor (TF) yeast library was screened, and 41 TFs that potentially bind to the OsYUC11 promoter were identified, of which OsNF-YB1, a member of the nuclear factor Y family, is predominantly expressed in the endosperm
- OsNF-YB1, OsYUC11, OsYUC11-mediated auxin biosynthesis is essential for endosperm development of rice, Both osyuc11 and osnf-yb1 mutants exhibited reduced seed size and increased chalkiness, accompanied by a reduction in indole-3-acetic acid biosynthesis
- OsNF-YB1, OsYUC11, OsYUC11-mediated auxin biosynthesis is essential for endosperm development of rice, OsNF-YB1 can bind the OsYUC11 promoter to induce gene expression in vivo
- OsbZIP60, OsNF-YB1, OsbZIP60-mediated unfolded protein response regulates grain chalkiness in rice., Furthermore, OsbZIP60 is found to activate the expression of key genes related to grain chalkiness, such as GPA3, FSE1, FLO7, Chalk5, OsNF-YB1, and OsPK2, whose expression is significantly suppressed in osbzip60 and overexpression lines of OsbZIP50, OsBiP1, OsBiP2, and OsBiP3
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