摘要
Cellulose, a major constituent of plant biomass, is synthesized by a cellulose synthase complex. It has been demonstrated that MYB genes transcriptionally regulate cellulose synthase in Arabidopsis. However, little is known about this process in tomato. Here, two MYB (SIMYB1/2) and three cellulose synthase (CESA) (SICESA41516) genes were isolated. SIMYB1/2 and SICESA4/5/6 accumulation was found to correspond to cellulose accumulation in different tissues of tomato. Dual luciferase assays indicated that these two MYBs were transcriptional activators that interact with promoters of SICESA4/5/6. Moreover, SIMYB2 could also activate promoters of SIMYB1/2, suggesting the possible underlying auto-activation mech- anisms for MYB transcription factors. Transient over-expression of SlMYB1/2 in Nicotiana tabacum up-regulated tobacco endogenous NtCESA genes and increased cellulose accumulation. The function of SIMYB112 was further investigated using stable transformation and the results indicated that N. tabacum lines heterologous expressing SIMYB1/2 displayed a pleiotropic phenotype, long and narrow leaves, with NtCESA induced and significant increase of cellulose. In conclusion, our data suggest that tomato SIMYB1/2 have transcriptional regulatory roles in cellulose biosynthesis and SIMYB2 was more effective than SIMYB1, which may due to the transcriptional activation by SIMYB2 on SIMYB1 and itself.
Cellulose, a major constituent of plant biomass, is synthesized by a cellulose synthase complex. It has been demonstrated that MYB genes transcriptionally regulate cellulose synthase in Arabidopsis. However, little is known about this process in tomato. Here, two MYB (SIMYB1/2) and three cellulose synthase (CESA) (SICESA41516) genes were isolated. SIMYB1/2 and SICESA4/5/6 accumulation was found to correspond to cellulose accumulation in different tissues of tomato. Dual luciferase assays indicated that these two MYBs were transcriptional activators that interact with promoters of SICESA4/5/6. Moreover, SIMYB2 could also activate promoters of SIMYB1/2, suggesting the possible underlying auto-activation mech- anisms for MYB transcription factors. Transient over-expression of SlMYB1/2 in Nicotiana tabacum up-regulated tobacco endogenous NtCESA genes and increased cellulose accumulation. The function of SIMYB112 was further investigated using stable transformation and the results indicated that N. tabacum lines heterologous expressing SIMYB1/2 displayed a pleiotropic phenotype, long and narrow leaves, with NtCESA induced and significant increase of cellulose. In conclusion, our data suggest that tomato SIMYB1/2 have transcriptional regulatory roles in cellulose biosynthesis and SIMYB2 was more effective than SIMYB1, which may due to the transcriptional activation by SIMYB2 on SIMYB1 and itself.
基金
supported by the International Science & Technology Cooperation Program of China (2011DFB31580)
the National Basic Research Program of China (2013CB127104)
the Natural Science Foundation of Zhejiang Province,China (LR16C150001)
